// Copyright (C) 2018 The Android Open Source Project // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // package apex implements build rules for creating the APEX files which are container for // lower-level system components. See https://source.android.com/devices/tech/ota/apex package apex import ( "fmt" "path/filepath" "sort" "strings" "github.com/google/blueprint" "github.com/google/blueprint/bootstrap" "github.com/google/blueprint/proptools" "android/soong/android" "android/soong/bazel" "android/soong/bpf" "android/soong/cc" prebuilt_etc "android/soong/etc" "android/soong/filesystem" "android/soong/java" "android/soong/python" "android/soong/rust" "android/soong/sh" ) func init() { registerApexBuildComponents(android.InitRegistrationContext) } func registerApexBuildComponents(ctx android.RegistrationContext) { ctx.RegisterModuleType("apex", BundleFactory) ctx.RegisterModuleType("apex_test", testApexBundleFactory) ctx.RegisterModuleType("apex_vndk", vndkApexBundleFactory) ctx.RegisterModuleType("apex_defaults", defaultsFactory) ctx.RegisterModuleType("prebuilt_apex", PrebuiltFactory) ctx.RegisterModuleType("override_apex", overrideApexFactory) ctx.RegisterModuleType("apex_set", apexSetFactory) ctx.PreArchMutators(registerPreArchMutators) ctx.PreDepsMutators(RegisterPreDepsMutators) ctx.PostDepsMutators(RegisterPostDepsMutators) } func registerPreArchMutators(ctx android.RegisterMutatorsContext) { ctx.TopDown("prebuilt_apex_module_creator", prebuiltApexModuleCreatorMutator).Parallel() } func RegisterPreDepsMutators(ctx android.RegisterMutatorsContext) { ctx.TopDown("apex_vndk", apexVndkMutator).Parallel() ctx.BottomUp("apex_vndk_deps", apexVndkDepsMutator).Parallel() } func RegisterPostDepsMutators(ctx android.RegisterMutatorsContext) { ctx.TopDown("apex_info", apexInfoMutator).Parallel() ctx.BottomUp("apex_unique", apexUniqueVariationsMutator).Parallel() ctx.BottomUp("apex_test_for_deps", apexTestForDepsMutator).Parallel() ctx.BottomUp("apex_test_for", apexTestForMutator).Parallel() // Run mark_platform_availability before the apexMutator as the apexMutator needs to know whether // it should create a platform variant. ctx.BottomUp("mark_platform_availability", markPlatformAvailability).Parallel() ctx.BottomUp("apex", apexMutator).Parallel() ctx.BottomUp("apex_directly_in_any", apexDirectlyInAnyMutator).Parallel() ctx.BottomUp("apex_flattened", apexFlattenedMutator).Parallel() } type apexBundleProperties struct { // Json manifest file describing meta info of this APEX bundle. Refer to // system/apex/proto/apex_manifest.proto for the schema. Default: "apex_manifest.json" Manifest *string `android:"path"` // AndroidManifest.xml file used for the zip container of this APEX bundle. If unspecified, // a default one is automatically generated. AndroidManifest *string `android:"path"` // Canonical name of this APEX bundle. Used to determine the path to the activated APEX on // device (/apex/). If unspecified, follows the name property. Apex_name *string // Determines the file contexts file for setting the security contexts to files in this APEX // bundle. For platform APEXes, this should points to a file under /system/sepolicy Default: // /system/sepolicy/apex/_file_contexts. File_contexts *string `android:"path"` // Path to the canned fs config file for customizing file's uid/gid/mod/capabilities. The // format is / [capabilities=0x], where path_or_glob is a // path or glob pattern for a file or set of files, uid/gid are numerial values of user ID // and group ID, mode is octal value for the file mode, and cap is hexadecimal value for the // capability. If this property is not set, or a file is missing in the file, default config // is used. Canned_fs_config *string `android:"path"` ApexNativeDependencies Multilib apexMultilibProperties // List of bootclasspath fragments that are embedded inside this APEX bundle. Bootclasspath_fragments []string // List of systemserverclasspath fragments that are embedded inside this APEX bundle. Systemserverclasspath_fragments []string // List of java libraries that are embedded inside this APEX bundle. Java_libs []string // List of sh binaries that are embedded inside this APEX bundle. Sh_binaries []string // List of platform_compat_config files that are embedded inside this APEX bundle. Compat_configs []string // List of filesystem images that are embedded inside this APEX bundle. Filesystems []string // The minimum SDK version that this APEX must support at minimum. This is usually set to // the SDK version that the APEX was first introduced. Min_sdk_version *string // Whether this APEX is considered updatable or not. When set to true, this will enforce // additional rules for making sure that the APEX is truly updatable. To be updatable, // min_sdk_version should be set as well. This will also disable the size optimizations like // symlinking to the system libs. Default is true. Updatable *bool // Marks that this APEX is designed to be updatable in the future, although it's not // updatable yet. This is used to mimic some of the build behaviors that are applied only to // updatable APEXes. Currently, this disables the size optimization, so that the size of // APEX will not increase when the APEX is actually marked as truly updatable. Default is // false. Future_updatable *bool // Whether this APEX can use platform APIs or not. Can be set to true only when `updatable: // false`. Default is false. Platform_apis *bool // Whether this APEX is installable to one of the partitions like system, vendor, etc. // Default: true. Installable *bool // If set true, VNDK libs are considered as stable libs and are not included in this APEX. // Should be only used in non-system apexes (e.g. vendor: true). Default is false. Use_vndk_as_stable *bool // Whether this is multi-installed APEX should skip installing symbol files. // Multi-installed APEXes share the same apex_name and are installed at the same time. // Default is false. // // Should be set to true for all multi-installed APEXes except the singular // default version within the multi-installed group. // Only the default version can install symbol files in $(PRODUCT_OUT}/apex, // or else conflicting build rules may be created. Multi_install_skip_symbol_files *bool // List of SDKs that are used to build this APEX. A reference to an SDK should be either // `name#version` or `name` which is an alias for `name#current`. If left empty, // `platform#current` is implied. This value affects all modules included in this APEX. In // other words, they are also built with the SDKs specified here. Uses_sdks []string // The type of APEX to build. Controls what the APEX payload is. Either 'image', 'zip' or // 'both'. When set to image, contents are stored in a filesystem image inside a zip // container. When set to zip, contents are stored in a zip container directly. This type is // mostly for host-side debugging. When set to both, the two types are both built. Default // is 'image'. Payload_type *string // The type of filesystem to use when the payload_type is 'image'. Either 'ext4', 'f2fs' // or 'erofs'. Default 'ext4'. Payload_fs_type *string // For telling the APEX to ignore special handling for system libraries such as bionic. // Default is false. Ignore_system_library_special_case *bool // Whenever apex_payload.img of the APEX should include dm-verity hashtree. // Default value is true. Generate_hashtree *bool // Whenever apex_payload.img of the APEX should not be dm-verity signed. Should be only // used in tests. Test_only_unsigned_payload *bool // Whenever apex should be compressed, regardless of product flag used. Should be only // used in tests. Test_only_force_compression *bool // Put extra tags (signer=) to apexkeys.txt, so that release tools can sign this apex // with the tool to sign payload contents. Custom_sign_tool *string // Canonical name of this APEX bundle. Used to determine the path to the // activated APEX on device (i.e. /apex/), and used for the // apex mutator variations. For override_apex modules, this is the name of the // overridden base module. ApexVariationName string `blueprint:"mutated"` IsCoverageVariant bool `blueprint:"mutated"` // List of sanitizer names that this APEX is enabled for SanitizerNames []string `blueprint:"mutated"` PreventInstall bool `blueprint:"mutated"` HideFromMake bool `blueprint:"mutated"` // Internal package method for this APEX. When payload_type is image, this can be either // imageApex or flattenedApex depending on Config.FlattenApex(). When payload_type is zip, // this becomes zipApex. ApexType apexPackaging `blueprint:"mutated"` } type ApexNativeDependencies struct { // List of native libraries that are embedded inside this APEX. Native_shared_libs []string // List of JNI libraries that are embedded inside this APEX. Jni_libs []string // List of rust dyn libraries Rust_dyn_libs []string // List of native executables that are embedded inside this APEX. Binaries []string // List of native tests that are embedded inside this APEX. Tests []string // List of filesystem images that are embedded inside this APEX bundle. Filesystems []string } type apexMultilibProperties struct { // Native dependencies whose compile_multilib is "first" First ApexNativeDependencies // Native dependencies whose compile_multilib is "both" Both ApexNativeDependencies // Native dependencies whose compile_multilib is "prefer32" Prefer32 ApexNativeDependencies // Native dependencies whose compile_multilib is "32" Lib32 ApexNativeDependencies // Native dependencies whose compile_multilib is "64" Lib64 ApexNativeDependencies } type apexTargetBundleProperties struct { Target struct { // Multilib properties only for android. Android struct { Multilib apexMultilibProperties } // Multilib properties only for host. Host struct { Multilib apexMultilibProperties } // Multilib properties only for host linux_bionic. Linux_bionic struct { Multilib apexMultilibProperties } // Multilib properties only for host linux_glibc. Linux_glibc struct { Multilib apexMultilibProperties } } } type apexArchBundleProperties struct { Arch struct { Arm struct { ApexNativeDependencies } Arm64 struct { ApexNativeDependencies } X86 struct { ApexNativeDependencies } X86_64 struct { ApexNativeDependencies } } } // These properties can be used in override_apex to override the corresponding properties in the // base apex. type overridableProperties struct { // List of APKs that are embedded inside this APEX. Apps []string // List of prebuilt files that are embedded inside this APEX bundle. Prebuilts []string // List of runtime resource overlays (RROs) that are embedded inside this APEX. Rros []string // List of BPF programs inside this APEX bundle. Bpfs []string // Names of modules to be overridden. Listed modules can only be other binaries (in Make or // Soong). This does not completely prevent installation of the overridden binaries, but if // both binaries would be installed by default (in PRODUCT_PACKAGES) the other binary will // be removed from PRODUCT_PACKAGES. Overrides []string // Logging parent value. Logging_parent string // Apex Container package name. Override value for attribute package:name in // AndroidManifest.xml Package_name string // A txt file containing list of files that are allowed to be included in this APEX. Allowed_files *string `android:"path"` // Name of the apex_key module that provides the private key to sign this APEX bundle. Key *string // Specifies the certificate and the private key to sign the zip container of this APEX. If // this is "foo", foo.x509.pem and foo.pk8 under PRODUCT_DEFAULT_DEV_CERTIFICATE are used // as the certificate and the private key, respectively. If this is ":module", then the // certificate and the private key are provided from the android_app_certificate module // named "module". Certificate *string // Whether this APEX can be compressed or not. Setting this property to false means this // APEX will never be compressed. When set to true, APEX will be compressed if other // conditions, e.g., target device needs to support APEX compression, are also fulfilled. // Default: false. Compressible *bool } type apexBundle struct { // Inherited structs android.ModuleBase android.DefaultableModuleBase android.OverridableModuleBase android.SdkBase android.BazelModuleBase // Properties properties apexBundleProperties targetProperties apexTargetBundleProperties archProperties apexArchBundleProperties overridableProperties overridableProperties vndkProperties apexVndkProperties // only for apex_vndk modules /////////////////////////////////////////////////////////////////////////////////////////// // Inputs // Keys for apex_paylaod.img publicKeyFile android.Path privateKeyFile android.Path // Cert/priv-key for the zip container containerCertificateFile android.Path containerPrivateKeyFile android.Path // Flags for special variants of APEX testApex bool vndkApex bool // Tells whether this variant of the APEX bundle is the primary one or not. Only the primary // one gets installed to the device. primaryApexType bool // Suffix of module name in Android.mk ".flattened", ".apex", ".zipapex", or "" suffix string // File system type of apex_payload.img payloadFsType fsType // Whether to create symlink to the system file instead of having a file inside the apex or // not linkToSystemLib bool // List of files to be included in this APEX. This is filled in the first part of // GenerateAndroidBuildActions. filesInfo []apexFile // List of other module names that should be installed when this APEX gets installed. requiredDeps []string /////////////////////////////////////////////////////////////////////////////////////////// // Outputs (final and intermediates) // Processed apex manifest in JSONson format (for Q) manifestJsonOut android.WritablePath // Processed apex manifest in PB format (for R+) manifestPbOut android.WritablePath // Processed file_contexts files fileContexts android.WritablePath // Struct holding the merged notice file paths in different formats mergedNotices android.NoticeOutputs // The built APEX file. This is the main product. outputFile android.WritablePath // The built APEX file in app bundle format. This file is not directly installed to the // device. For an APEX, multiple app bundles are created each of which is for a specific ABI // like arm, arm64, x86, etc. Then they are processed again (outside of the Android build // system) to be merged into a single app bundle file that Play accepts. See // vendor/google/build/build_unbundled_mainline_module.sh for more detail. bundleModuleFile android.WritablePath // Target directory to install this APEX. Usually out/target/product///apex. installDir android.InstallPath // Path where this APEX was installed. installedFile android.InstallPath // Installed locations of symlinks for backward compatibility. compatSymlinks android.InstallPaths // Text file having the list of individual files that are included in this APEX. Used for // debugging purpose. installedFilesFile android.WritablePath // List of module names that this APEX is including (to be shown via *-deps-info target). // Used for debugging purpose. android.ApexBundleDepsInfo // Optional list of lint report zip files for apexes that contain java or app modules lintReports android.Paths prebuiltFileToDelete string isCompressed bool // Path of API coverage generate file nativeApisUsedByModuleFile android.ModuleOutPath nativeApisBackedByModuleFile android.ModuleOutPath javaApisUsedByModuleFile android.ModuleOutPath // Collect the module directory for IDE info in java/jdeps.go. modulePaths []string } // apexFileClass represents a type of file that can be included in APEX. type apexFileClass int const ( app apexFileClass = iota appSet etc goBinary javaSharedLib nativeExecutable nativeSharedLib nativeTest pyBinary shBinary ) // apexFile represents a file in an APEX bundle. This is created during the first half of // GenerateAndroidBuildActions by traversing the dependencies of the APEX. Then in the second half // of the function, this is used to create commands that copies the files into a staging directory, // where they are packaged into the APEX file. This struct is also used for creating Make modules // for each of the files in case when the APEX is flattened. type apexFile struct { // buildFile is put in the installDir inside the APEX. builtFile android.Path noticeFiles android.Paths installDir string customStem string symlinks []string // additional symlinks // Info for Android.mk Module name of `module` in AndroidMk. Note the generated AndroidMk // module for apexFile is named something like .[] androidMkModuleName string // becomes LOCAL_MODULE class apexFileClass // becomes LOCAL_MODULE_CLASS moduleDir string // becomes LOCAL_PATH requiredModuleNames []string // becomes LOCAL_REQUIRED_MODULES targetRequiredModuleNames []string // becomes LOCAL_TARGET_REQUIRED_MODULES hostRequiredModuleNames []string // becomes LOCAL_HOST_REQUIRED_MODULES dataPaths []android.DataPath // becomes LOCAL_TEST_DATA jacocoReportClassesFile android.Path // only for javalibs and apps lintDepSets java.LintDepSets // only for javalibs and apps certificate java.Certificate // only for apps overriddenPackageName string // only for apps transitiveDep bool isJniLib bool multilib string // TODO(jiyong): remove this module android.Module } // TODO(jiyong): shorten the arglist using an option struct func newApexFile(ctx android.BaseModuleContext, builtFile android.Path, androidMkModuleName string, installDir string, class apexFileClass, module android.Module) apexFile { ret := apexFile{ builtFile: builtFile, installDir: installDir, androidMkModuleName: androidMkModuleName, class: class, module: module, } if module != nil { ret.noticeFiles = module.NoticeFiles() ret.moduleDir = ctx.OtherModuleDir(module) ret.requiredModuleNames = module.RequiredModuleNames() ret.targetRequiredModuleNames = module.TargetRequiredModuleNames() ret.hostRequiredModuleNames = module.HostRequiredModuleNames() ret.multilib = module.Target().Arch.ArchType.Multilib } return ret } func (af *apexFile) ok() bool { return af.builtFile != nil && af.builtFile.String() != "" } // apexRelativePath returns the relative path of the given path from the install directory of this // apexFile. // TODO(jiyong): rename this func (af *apexFile) apexRelativePath(path string) string { return filepath.Join(af.installDir, path) } // path returns path of this apex file relative to the APEX root func (af *apexFile) path() string { return af.apexRelativePath(af.stem()) } // stem returns the base filename of this apex file func (af *apexFile) stem() string { if af.customStem != "" { return af.customStem } return af.builtFile.Base() } // symlinkPaths returns paths of the symlinks (if any) relative to the APEX root func (af *apexFile) symlinkPaths() []string { var ret []string for _, symlink := range af.symlinks { ret = append(ret, af.apexRelativePath(symlink)) } return ret } // availableToPlatform tests whether this apexFile is from a module that can be installed to the // platform. func (af *apexFile) availableToPlatform() bool { if af.module == nil { return false } if am, ok := af.module.(android.ApexModule); ok { return am.AvailableFor(android.AvailableToPlatform) } return false } //////////////////////////////////////////////////////////////////////////////////////////////////// // Mutators // // Brief description about mutators for APEX. The following three mutators are the most important // ones. // // 1) DepsMutator: from the properties like native_shared_libs, java_libs, etc., modules are added // to the (direct) dependencies of this APEX bundle. // // 2) apexInfoMutator: this is a post-deps mutator, so runs after DepsMutator. Its goal is to // collect modules that are direct and transitive dependencies of each APEX bundle. The collected // modules are marked as being included in the APEX via BuildForApex(). // // 3) apexMutator: this is a post-deps mutator that runs after apexInfoMutator. For each module that // are marked by the apexInfoMutator, apex variations are created using CreateApexVariations(). type dependencyTag struct { blueprint.BaseDependencyTag name string // Determines if the dependent will be part of the APEX payload. Can be false for the // dependencies to the signing key module, etc. payload bool // True if the dependent can only be a source module, false if a prebuilt module is a suitable // replacement. This is needed because some prebuilt modules do not provide all the information // needed by the apex. sourceOnly bool } func (d dependencyTag) ReplaceSourceWithPrebuilt() bool { return !d.sourceOnly } var _ android.ReplaceSourceWithPrebuilt = &dependencyTag{} var ( androidAppTag = dependencyTag{name: "androidApp", payload: true} bpfTag = dependencyTag{name: "bpf", payload: true} certificateTag = dependencyTag{name: "certificate"} executableTag = dependencyTag{name: "executable", payload: true} fsTag = dependencyTag{name: "filesystem", payload: true} bcpfTag = dependencyTag{name: "bootclasspathFragment", payload: true, sourceOnly: true} sscpfTag = dependencyTag{name: "systemserverclasspathFragment", payload: true, sourceOnly: true} compatConfigTag = dependencyTag{name: "compatConfig", payload: true, sourceOnly: true} javaLibTag = dependencyTag{name: "javaLib", payload: true} jniLibTag = dependencyTag{name: "jniLib", payload: true} keyTag = dependencyTag{name: "key"} prebuiltTag = dependencyTag{name: "prebuilt", payload: true} rroTag = dependencyTag{name: "rro", payload: true} sharedLibTag = dependencyTag{name: "sharedLib", payload: true} testForTag = dependencyTag{name: "test for"} testTag = dependencyTag{name: "test", payload: true} shBinaryTag = dependencyTag{name: "shBinary", payload: true} ) // TODO(jiyong): shorten this function signature func addDependenciesForNativeModules(ctx android.BottomUpMutatorContext, nativeModules ApexNativeDependencies, target android.Target, imageVariation string) { binVariations := target.Variations() libVariations := append(target.Variations(), blueprint.Variation{Mutator: "link", Variation: "shared"}) rustLibVariations := append(target.Variations(), blueprint.Variation{Mutator: "rust_libraries", Variation: "dylib"}) if ctx.Device() { binVariations = append(binVariations, blueprint.Variation{Mutator: "image", Variation: imageVariation}) libVariations = append(libVariations, blueprint.Variation{Mutator: "image", Variation: imageVariation}) rustLibVariations = append(rustLibVariations, blueprint.Variation{Mutator: "image", Variation: imageVariation}) } // Use *FarVariation* to be able to depend on modules having conflicting variations with // this module. This is required since arch variant of an APEX bundle is 'common' but it is // 'arm' or 'arm64' for native shared libs. ctx.AddFarVariationDependencies(binVariations, executableTag, nativeModules.Binaries...) ctx.AddFarVariationDependencies(binVariations, testTag, nativeModules.Tests...) ctx.AddFarVariationDependencies(libVariations, jniLibTag, nativeModules.Jni_libs...) ctx.AddFarVariationDependencies(libVariations, sharedLibTag, nativeModules.Native_shared_libs...) ctx.AddFarVariationDependencies(rustLibVariations, sharedLibTag, nativeModules.Rust_dyn_libs...) ctx.AddFarVariationDependencies(target.Variations(), fsTag, nativeModules.Filesystems...) } func (a *apexBundle) combineProperties(ctx android.BottomUpMutatorContext) { if ctx.Device() { proptools.AppendProperties(&a.properties.Multilib, &a.targetProperties.Target.Android.Multilib, nil) } else { proptools.AppendProperties(&a.properties.Multilib, &a.targetProperties.Target.Host.Multilib, nil) if ctx.Os().Bionic() { proptools.AppendProperties(&a.properties.Multilib, &a.targetProperties.Target.Linux_bionic.Multilib, nil) } else { proptools.AppendProperties(&a.properties.Multilib, &a.targetProperties.Target.Linux_glibc.Multilib, nil) } } } // getImageVariation returns the image variant name for this apexBundle. In most cases, it's simply // android.CoreVariation, but gets complicated for the vendor APEXes and the VNDK APEX. func (a *apexBundle) getImageVariation(ctx android.BottomUpMutatorContext) string { deviceConfig := ctx.DeviceConfig() if a.vndkApex { return cc.VendorVariationPrefix + a.vndkVersion(deviceConfig) } var prefix string var vndkVersion string if deviceConfig.VndkVersion() != "" { if a.SocSpecific() || a.DeviceSpecific() { prefix = cc.VendorVariationPrefix vndkVersion = deviceConfig.VndkVersion() } else if a.ProductSpecific() { prefix = cc.ProductVariationPrefix vndkVersion = deviceConfig.ProductVndkVersion() } } if vndkVersion == "current" { vndkVersion = deviceConfig.PlatformVndkVersion() } if vndkVersion != "" { return prefix + vndkVersion } return android.CoreVariation // The usual case } func (a *apexBundle) DepsMutator(ctx android.BottomUpMutatorContext) { // apexBundle is a multi-arch targets module. Arch variant of apexBundle is set to 'common'. // arch-specific targets are enabled by the compile_multilib setting of the apex bundle. For // each target os/architectures, appropriate dependencies are selected by their // target..multilib. groups and are added as (direct) dependencies. targets := ctx.MultiTargets() imageVariation := a.getImageVariation(ctx) a.combineProperties(ctx) has32BitTarget := false for _, target := range targets { if target.Arch.ArchType.Multilib == "lib32" { has32BitTarget = true } } for i, target := range targets { // Don't include artifacts for the host cross targets because there is no way for us // to run those artifacts natively on host if target.HostCross { continue } var depsList []ApexNativeDependencies // Add native modules targeting both ABIs. When multilib.* is omitted for // native_shared_libs/jni_libs/tests, it implies multilib.both depsList = append(depsList, a.properties.Multilib.Both) depsList = append(depsList, ApexNativeDependencies{ Native_shared_libs: a.properties.Native_shared_libs, Tests: a.properties.Tests, Jni_libs: a.properties.Jni_libs, Binaries: nil, }) // Add native modules targeting the first ABI When multilib.* is omitted for // binaries, it implies multilib.first isPrimaryAbi := i == 0 if isPrimaryAbi { depsList = append(depsList, a.properties.Multilib.First) depsList = append(depsList, ApexNativeDependencies{ Native_shared_libs: nil, Tests: nil, Jni_libs: nil, Binaries: a.properties.Binaries, }) } // Add native modules targeting either 32-bit or 64-bit ABI switch target.Arch.ArchType.Multilib { case "lib32": depsList = append(depsList, a.properties.Multilib.Lib32) depsList = append(depsList, a.properties.Multilib.Prefer32) case "lib64": depsList = append(depsList, a.properties.Multilib.Lib64) if !has32BitTarget { depsList = append(depsList, a.properties.Multilib.Prefer32) } } // Add native modules targeting a specific arch variant switch target.Arch.ArchType { case android.Arm: depsList = append(depsList, a.archProperties.Arch.Arm.ApexNativeDependencies) case android.Arm64: depsList = append(depsList, a.archProperties.Arch.Arm64.ApexNativeDependencies) case android.X86: depsList = append(depsList, a.archProperties.Arch.X86.ApexNativeDependencies) case android.X86_64: depsList = append(depsList, a.archProperties.Arch.X86_64.ApexNativeDependencies) default: panic(fmt.Errorf("unsupported arch %v\n", ctx.Arch().ArchType)) } for _, d := range depsList { addDependenciesForNativeModules(ctx, d, target, imageVariation) } ctx.AddFarVariationDependencies([]blueprint.Variation{ {Mutator: "os", Variation: target.OsVariation()}, {Mutator: "arch", Variation: target.ArchVariation()}, }, shBinaryTag, a.properties.Sh_binaries...) } // Common-arch dependencies come next commonVariation := ctx.Config().AndroidCommonTarget.Variations() ctx.AddFarVariationDependencies(commonVariation, bcpfTag, a.properties.Bootclasspath_fragments...) ctx.AddFarVariationDependencies(commonVariation, sscpfTag, a.properties.Systemserverclasspath_fragments...) ctx.AddFarVariationDependencies(commonVariation, javaLibTag, a.properties.Java_libs...) ctx.AddFarVariationDependencies(commonVariation, fsTag, a.properties.Filesystems...) ctx.AddFarVariationDependencies(commonVariation, compatConfigTag, a.properties.Compat_configs...) // Marks that this APEX (in fact all the modules in it) has to be built with the given SDKs. // This field currently isn't used. // TODO(jiyong): consider dropping this feature // TODO(jiyong): ensure that all apexes are with non-empty uses_sdks if len(a.properties.Uses_sdks) > 0 { sdkRefs := []android.SdkRef{} for _, str := range a.properties.Uses_sdks { parsed := android.ParseSdkRef(ctx, str, "uses_sdks") sdkRefs = append(sdkRefs, parsed) } a.BuildWithSdks(sdkRefs) } } // DepsMutator for the overridden properties. func (a *apexBundle) OverridablePropertiesDepsMutator(ctx android.BottomUpMutatorContext) { if a.overridableProperties.Allowed_files != nil { android.ExtractSourceDeps(ctx, a.overridableProperties.Allowed_files) } commonVariation := ctx.Config().AndroidCommonTarget.Variations() ctx.AddFarVariationDependencies(commonVariation, androidAppTag, a.overridableProperties.Apps...) ctx.AddFarVariationDependencies(commonVariation, bpfTag, a.overridableProperties.Bpfs...) ctx.AddFarVariationDependencies(commonVariation, rroTag, a.overridableProperties.Rros...) if prebuilts := a.overridableProperties.Prebuilts; len(prebuilts) > 0 { // For prebuilt_etc, use the first variant (64 on 64/32bit device, 32 on 32bit device) // regardless of the TARGET_PREFER_* setting. See b/144532908 arches := ctx.DeviceConfig().Arches() if len(arches) != 0 { archForPrebuiltEtc := arches[0] for _, arch := range arches { // Prefer 64-bit arch if there is any if arch.ArchType.Multilib == "lib64" { archForPrebuiltEtc = arch break } } ctx.AddFarVariationDependencies([]blueprint.Variation{ {Mutator: "os", Variation: ctx.Os().String()}, {Mutator: "arch", Variation: archForPrebuiltEtc.String()}, }, prebuiltTag, prebuilts...) } } // Dependencies for signing if String(a.overridableProperties.Key) == "" { ctx.PropertyErrorf("key", "missing") return } ctx.AddDependency(ctx.Module(), keyTag, String(a.overridableProperties.Key)) cert := android.SrcIsModule(a.getCertString(ctx)) if cert != "" { ctx.AddDependency(ctx.Module(), certificateTag, cert) // empty cert is not an error. Cert and private keys will be directly found under // PRODUCT_DEFAULT_DEV_CERTIFICATE } } type ApexBundleInfo struct { Contents *android.ApexContents } var ApexBundleInfoProvider = blueprint.NewMutatorProvider(ApexBundleInfo{}, "apex_info") var _ ApexInfoMutator = (*apexBundle)(nil) func (a *apexBundle) ApexVariationName() string { return a.properties.ApexVariationName } // ApexInfoMutator is responsible for collecting modules that need to have apex variants. They are // identified by doing a graph walk starting from an apexBundle. Basically, all the (direct and // indirect) dependencies are collected. But a few types of modules that shouldn't be included in // the apexBundle (e.g. stub libraries) are not collected. Note that a single module can be depended // on by multiple apexBundles. In that case, the module is collected for all of the apexBundles. // // For each dependency between an apex and an ApexModule an ApexInfo object describing the apex // is passed to that module's BuildForApex(ApexInfo) method which collates them all in a list. // The apexMutator uses that list to create module variants for the apexes to which it belongs. // The relationship between module variants and apexes is not one-to-one as variants will be // shared between compatible apexes. func (a *apexBundle) ApexInfoMutator(mctx android.TopDownMutatorContext) { // The VNDK APEX is special. For the APEX, the membership is described in a very different // way. There is no dependency from the VNDK APEX to the VNDK libraries. Instead, VNDK // libraries are self-identified by their vndk.enabled properties. There is no need to run // this mutator for the APEX as nothing will be collected. So, let's return fast. if a.vndkApex { return } // Special casing for APEXes on non-system (e.g., vendor, odm, etc.) partitions. They are // provided with a property named use_vndk_as_stable, which when set to true doesn't collect // VNDK libraries as transitive dependencies. This option is useful for reducing the size of // the non-system APEXes because the VNDK libraries won't be included (and duped) in the // APEX, but shared across APEXes via the VNDK APEX. useVndk := a.SocSpecific() || a.DeviceSpecific() || (a.ProductSpecific() && mctx.Config().EnforceProductPartitionInterface()) excludeVndkLibs := useVndk && proptools.Bool(a.properties.Use_vndk_as_stable) if proptools.Bool(a.properties.Use_vndk_as_stable) { if !useVndk { mctx.PropertyErrorf("use_vndk_as_stable", "not supported for system/system_ext APEXes") } mctx.VisitDirectDepsWithTag(sharedLibTag, func(dep android.Module) { if c, ok := dep.(*cc.Module); ok && c.IsVndk() { mctx.PropertyErrorf("use_vndk_as_stable", "Trying to include a VNDK library(%s) while use_vndk_as_stable is true.", dep.Name()) } }) if mctx.Failed() { return } } continueApexDepsWalk := func(child, parent android.Module) bool { am, ok := child.(android.ApexModule) if !ok || !am.CanHaveApexVariants() { return false } depTag := mctx.OtherModuleDependencyTag(child) // Check to see if the tag always requires that the child module has an apex variant for every // apex variant of the parent module. If it does not then it is still possible for something // else, e.g. the DepIsInSameApex(...) method to decide that a variant is required. if required, ok := depTag.(android.AlwaysRequireApexVariantTag); ok && required.AlwaysRequireApexVariant() { return true } if !android.IsDepInSameApex(mctx, parent, child) { return false } if excludeVndkLibs { if c, ok := child.(*cc.Module); ok && c.IsVndk() { return false } } // By default, all the transitive dependencies are collected, unless filtered out // above. return true } // Records whether a certain module is included in this apexBundle via direct dependency or // inndirect dependency. contents := make(map[string]android.ApexMembership) mctx.WalkDeps(func(child, parent android.Module) bool { if !continueApexDepsWalk(child, parent) { return false } // If the parent is apexBundle, this child is directly depended. _, directDep := parent.(*apexBundle) depName := mctx.OtherModuleName(child) contents[depName] = contents[depName].Add(directDep) return true }) // The membership information is saved for later access apexContents := android.NewApexContents(contents) mctx.SetProvider(ApexBundleInfoProvider, ApexBundleInfo{ Contents: apexContents, }) minSdkVersion := a.minSdkVersion(mctx) // When min_sdk_version is not set, the apex is built against FutureApiLevel. if minSdkVersion.IsNone() { minSdkVersion = android.FutureApiLevel } // This is the main part of this mutator. Mark the collected dependencies that they need to // be built for this apexBundle. apexVariationName := proptools.StringDefault(a.properties.Apex_name, mctx.ModuleName()) // could be com.android.foo a.properties.ApexVariationName = apexVariationName apexInfo := android.ApexInfo{ ApexVariationName: apexVariationName, MinSdkVersion: minSdkVersion, RequiredSdks: a.RequiredSdks(), Updatable: a.Updatable(), UsePlatformApis: a.UsePlatformApis(), InApexVariants: []string{apexVariationName}, InApexModules: []string{a.Name()}, // could be com.mycompany.android.foo ApexContents: []*android.ApexContents{apexContents}, } mctx.WalkDeps(func(child, parent android.Module) bool { if !continueApexDepsWalk(child, parent) { return false } child.(android.ApexModule).BuildForApex(apexInfo) // leave a mark! return true }) } type ApexInfoMutator interface { // ApexVariationName returns the name of the APEX variation to use in the apex // mutator etc. It is the same name as ApexInfo.ApexVariationName. ApexVariationName() string // ApexInfoMutator implementations must call BuildForApex(ApexInfo) on any modules that are // depended upon by an apex and which require an apex specific variant. ApexInfoMutator(android.TopDownMutatorContext) } // apexInfoMutator delegates the work of identifying which modules need an ApexInfo and apex // specific variant to modules that support the ApexInfoMutator. func apexInfoMutator(mctx android.TopDownMutatorContext) { if !mctx.Module().Enabled() { return } if a, ok := mctx.Module().(ApexInfoMutator); ok { a.ApexInfoMutator(mctx) return } } // apexUniqueVariationsMutator checks if any dependencies use unique apex variations. If so, use // unique apex variations for this module. See android/apex.go for more about unique apex variant. // TODO(jiyong): move this to android/apex.go? func apexUniqueVariationsMutator(mctx android.BottomUpMutatorContext) { if !mctx.Module().Enabled() { return } if am, ok := mctx.Module().(android.ApexModule); ok { android.UpdateUniqueApexVariationsForDeps(mctx, am) } } // apexTestForDepsMutator checks if this module is a test for an apex. If so, add a dependency on // the apex in order to retrieve its contents later. // TODO(jiyong): move this to android/apex.go? func apexTestForDepsMutator(mctx android.BottomUpMutatorContext) { if !mctx.Module().Enabled() { return } if am, ok := mctx.Module().(android.ApexModule); ok { if testFor := am.TestFor(); len(testFor) > 0 { mctx.AddFarVariationDependencies([]blueprint.Variation{ {Mutator: "os", Variation: am.Target().OsVariation()}, {"arch", "common"}, }, testForTag, testFor...) } } } // TODO(jiyong): move this to android/apex.go? func apexTestForMutator(mctx android.BottomUpMutatorContext) { if !mctx.Module().Enabled() { return } if _, ok := mctx.Module().(android.ApexModule); ok { var contents []*android.ApexContents for _, testFor := range mctx.GetDirectDepsWithTag(testForTag) { abInfo := mctx.OtherModuleProvider(testFor, ApexBundleInfoProvider).(ApexBundleInfo) contents = append(contents, abInfo.Contents) } mctx.SetProvider(android.ApexTestForInfoProvider, android.ApexTestForInfo{ ApexContents: contents, }) } } // markPlatformAvailability marks whether or not a module can be available to platform. A module // cannot be available to platform if 1) it is explicitly marked as not available (i.e. // "//apex_available:platform" is absent) or 2) it depends on another module that isn't (or can't // be) available to platform // TODO(jiyong): move this to android/apex.go? func markPlatformAvailability(mctx android.BottomUpMutatorContext) { // Host and recovery are not considered as platform if mctx.Host() || mctx.Module().InstallInRecovery() { return } am, ok := mctx.Module().(android.ApexModule) if !ok { return } availableToPlatform := am.AvailableFor(android.AvailableToPlatform) // If any of the dep is not available to platform, this module is also considered as being // not available to platform even if it has "//apex_available:platform" mctx.VisitDirectDeps(func(child android.Module) { if !android.IsDepInSameApex(mctx, am, child) { // if the dependency crosses apex boundary, don't consider it return } if dep, ok := child.(android.ApexModule); ok && dep.NotAvailableForPlatform() { availableToPlatform = false // TODO(b/154889534) trigger an error when 'am' has // "//apex_available:platform" } }) // Exception 1: check to see if the module always requires it. if am.AlwaysRequiresPlatformApexVariant() { availableToPlatform = true } // Exception 2: bootstrap bionic libraries are also always available to platform if cc.InstallToBootstrap(mctx.ModuleName(), mctx.Config()) { availableToPlatform = true } if !availableToPlatform { am.SetNotAvailableForPlatform() } } // apexMutator visits each module and creates apex variations if the module was marked in the // previous run of apexInfoMutator. func apexMutator(mctx android.BottomUpMutatorContext) { if !mctx.Module().Enabled() { return } // This is the usual path. if am, ok := mctx.Module().(android.ApexModule); ok && am.CanHaveApexVariants() { android.CreateApexVariations(mctx, am) return } // apexBundle itself is mutated so that it and its dependencies have the same apex variant. if ai, ok := mctx.Module().(ApexInfoMutator); ok && apexModuleTypeRequiresVariant(ai) { apexBundleName := ai.ApexVariationName() mctx.CreateVariations(apexBundleName) if strings.HasPrefix(apexBundleName, "com.android.art") { // Create an alias from the platform variant. This is done to make // test_for dependencies work for modules that are split by the APEX // mutator, since test_for dependencies always go to the platform variant. // This doesn't happen for normal APEXes that are disjunct, so only do // this for the overlapping ART APEXes. // TODO(b/183882457): Remove this if the test_for functionality is // refactored to depend on the proper APEX variants instead of platform. mctx.CreateAliasVariation("", apexBundleName) } } else if o, ok := mctx.Module().(*OverrideApex); ok { apexBundleName := o.GetOverriddenModuleName() if apexBundleName == "" { mctx.ModuleErrorf("base property is not set") return } mctx.CreateVariations(apexBundleName) if strings.HasPrefix(apexBundleName, "com.android.art") { // TODO(b/183882457): See note for CreateAliasVariation above. mctx.CreateAliasVariation("", apexBundleName) } } } // apexModuleTypeRequiresVariant determines whether the module supplied requires an apex specific // variant. func apexModuleTypeRequiresVariant(module ApexInfoMutator) bool { if a, ok := module.(*apexBundle); ok { // TODO(jiyong): document the reason why the VNDK APEX is an exception here. return !a.vndkApex } return true } // See android.UpdateDirectlyInAnyApex // TODO(jiyong): move this to android/apex.go? func apexDirectlyInAnyMutator(mctx android.BottomUpMutatorContext) { if !mctx.Module().Enabled() { return } if am, ok := mctx.Module().(android.ApexModule); ok { android.UpdateDirectlyInAnyApex(mctx, am) } } // apexPackaging represents a specific packaging method for an APEX. type apexPackaging int const ( // imageApex is a packaging method where contents are included in a filesystem image which // is then included in a zip container. This is the most typical way of packaging. imageApex apexPackaging = iota // zipApex is a packaging method where contents are directly included in the zip container. // This is used for host-side testing - because the contents are easily accessible by // unzipping the container. zipApex // flattendApex is a packaging method where contents are not included in the APEX file, but // installed to /apex/ directory on the device. This packaging method is used for // old devices where the filesystem-based APEX file can't be supported. flattenedApex ) const ( // File extensions of an APEX for different packaging methods imageApexSuffix = ".apex" imageCapexSuffix = ".capex" zipApexSuffix = ".zipapex" flattenedSuffix = ".flattened" // variant names each of which is for a packaging method imageApexType = "image" zipApexType = "zip" flattenedApexType = "flattened" ext4FsType = "ext4" f2fsFsType = "f2fs" erofsFsType = "erofs" ) // The suffix for the output "file", not the module func (a apexPackaging) suffix() string { switch a { case imageApex: return imageApexSuffix case zipApex: return zipApexSuffix default: panic(fmt.Errorf("unknown APEX type %d", a)) } } func (a apexPackaging) name() string { switch a { case imageApex: return imageApexType case zipApex: return zipApexType default: panic(fmt.Errorf("unknown APEX type %d", a)) } } // apexFlattenedMutator creates one or more variations each of which is for a packaging method. // TODO(jiyong): give a better name to this mutator func apexFlattenedMutator(mctx android.BottomUpMutatorContext) { if !mctx.Module().Enabled() { return } if ab, ok := mctx.Module().(*apexBundle); ok { var variants []string switch proptools.StringDefault(ab.properties.Payload_type, "image") { case "image": // This is the normal case. Note that both image and flattend APEXes are // created. The image type is installed to the system partition, while the // flattened APEX is (optionally) installed to the system_ext partition. // This is mostly for GSI which has to support wide range of devices. If GSI // is installed on a newer (APEX-capable) device, the image APEX in the // system will be used. However, if the same GSI is installed on an old // device which can't support image APEX, the flattened APEX in the // system_ext partion (which still is part of GSI) is used instead. variants = append(variants, imageApexType, flattenedApexType) case "zip": variants = append(variants, zipApexType) case "both": variants = append(variants, imageApexType, zipApexType, flattenedApexType) default: mctx.PropertyErrorf("payload_type", "%q is not one of \"image\", \"zip\", or \"both\".", *ab.properties.Payload_type) return } modules := mctx.CreateLocalVariations(variants...) for i, v := range variants { switch v { case imageApexType: modules[i].(*apexBundle).properties.ApexType = imageApex case zipApexType: modules[i].(*apexBundle).properties.ApexType = zipApex case flattenedApexType: modules[i].(*apexBundle).properties.ApexType = flattenedApex // See the comment above for why system_ext. if !mctx.Config().FlattenApex() && ab.Platform() { modules[i].(*apexBundle).MakeAsSystemExt() } } } } else if _, ok := mctx.Module().(*OverrideApex); ok { // payload_type is forcibly overridden to "image" // TODO(jiyong): is this the right decision? mctx.CreateVariations(imageApexType, flattenedApexType) } } var _ android.DepIsInSameApex = (*apexBundle)(nil) // Implements android.DepInInSameApex func (a *apexBundle) DepIsInSameApex(ctx android.BaseModuleContext, dep android.Module) bool { // direct deps of an APEX bundle are all part of the APEX bundle // TODO(jiyong): shouldn't we look into the payload field of the dependencyTag? return true } var _ android.OutputFileProducer = (*apexBundle)(nil) // Implements android.OutputFileProducer func (a *apexBundle) OutputFiles(tag string) (android.Paths, error) { switch tag { case "", android.DefaultDistTag: // This is the default dist path. return android.Paths{a.outputFile}, nil default: return nil, fmt.Errorf("unsupported module reference tag %q", tag) } } var _ cc.Coverage = (*apexBundle)(nil) // Implements cc.Coverage func (a *apexBundle) IsNativeCoverageNeeded(ctx android.BaseModuleContext) bool { return ctx.Device() && ctx.DeviceConfig().NativeCoverageEnabled() } // Implements cc.Coverage func (a *apexBundle) SetPreventInstall() { a.properties.PreventInstall = true } // Implements cc.Coverage func (a *apexBundle) HideFromMake() { a.properties.HideFromMake = true // This HideFromMake is shadowing the ModuleBase one, call through to it for now. // TODO(ccross): untangle these a.ModuleBase.HideFromMake() } // Implements cc.Coverage func (a *apexBundle) MarkAsCoverageVariant(coverage bool) { a.properties.IsCoverageVariant = coverage } // Implements cc.Coverage func (a *apexBundle) EnableCoverageIfNeeded() {} var _ android.ApexBundleDepsInfoIntf = (*apexBundle)(nil) // Implements android.ApexBundleDepsInfoIntf func (a *apexBundle) Updatable() bool { return proptools.BoolDefault(a.properties.Updatable, true) } func (a *apexBundle) FutureUpdatable() bool { return proptools.BoolDefault(a.properties.Future_updatable, false) } func (a *apexBundle) UsePlatformApis() bool { return proptools.BoolDefault(a.properties.Platform_apis, false) } // getCertString returns the name of the cert that should be used to sign this APEX. This is // basically from the "certificate" property, but could be overridden by the device config. func (a *apexBundle) getCertString(ctx android.BaseModuleContext) string { moduleName := ctx.ModuleName() // VNDK APEXes share the same certificate. To avoid adding a new VNDK version to the // OVERRIDE_* list, we check with the pseudo module name to see if its certificate is // overridden. if a.vndkApex { moduleName = vndkApexName } certificate, overridden := ctx.DeviceConfig().OverrideCertificateFor(moduleName) if overridden { return ":" + certificate } return String(a.overridableProperties.Certificate) } // See the installable property func (a *apexBundle) installable() bool { return !a.properties.PreventInstall && (a.properties.Installable == nil || proptools.Bool(a.properties.Installable)) } // See the generate_hashtree property func (a *apexBundle) shouldGenerateHashtree() bool { return proptools.BoolDefault(a.properties.Generate_hashtree, true) } // See the test_only_unsigned_payload property func (a *apexBundle) testOnlyShouldSkipPayloadSign() bool { return proptools.Bool(a.properties.Test_only_unsigned_payload) } // See the test_only_force_compression property func (a *apexBundle) testOnlyShouldForceCompression() bool { return proptools.Bool(a.properties.Test_only_force_compression) } // These functions are interfacing with cc/sanitizer.go. The entire APEX (along with all of its // members) can be sanitized, either forcibly, or by the global configuration. For some of the // sanitizers, extra dependencies can be forcibly added as well. func (a *apexBundle) EnableSanitizer(sanitizerName string) { if !android.InList(sanitizerName, a.properties.SanitizerNames) { a.properties.SanitizerNames = append(a.properties.SanitizerNames, sanitizerName) } } func (a *apexBundle) IsSanitizerEnabled(ctx android.BaseModuleContext, sanitizerName string) bool { if android.InList(sanitizerName, a.properties.SanitizerNames) { return true } // Then follow the global setting globalSanitizerNames := []string{} if a.Host() { globalSanitizerNames = ctx.Config().SanitizeHost() } else { arches := ctx.Config().SanitizeDeviceArch() if len(arches) == 0 || android.InList(a.Arch().ArchType.Name, arches) { globalSanitizerNames = ctx.Config().SanitizeDevice() } } return android.InList(sanitizerName, globalSanitizerNames) } func (a *apexBundle) AddSanitizerDependencies(ctx android.BottomUpMutatorContext, sanitizerName string) { // TODO(jiyong): move this info (the sanitizer name, the lib name, etc.) to cc/sanitize.go // Keep only the mechanism here. if ctx.Device() && sanitizerName == "hwaddress" && strings.HasPrefix(a.Name(), "com.android.runtime") { imageVariation := a.getImageVariation(ctx) for _, target := range ctx.MultiTargets() { if target.Arch.ArchType.Multilib == "lib64" { addDependenciesForNativeModules(ctx, ApexNativeDependencies{ Native_shared_libs: []string{"libclang_rt.hwasan-aarch64-android"}, Tests: nil, Jni_libs: nil, Binaries: nil, }, target, imageVariation) break } } } } // apexFileFor functions below create an apexFile struct for a given Soong module. The // returned apexFile saves information about the Soong module that will be used for creating the // build rules. func apexFileForNativeLibrary(ctx android.BaseModuleContext, ccMod *cc.Module, handleSpecialLibs bool) apexFile { // Decide the APEX-local directory by the multilib of the library In the future, we may // query this to the module. // TODO(jiyong): use the new PackagingSpec var dirInApex string switch ccMod.Arch().ArchType.Multilib { case "lib32": dirInApex = "lib" case "lib64": dirInApex = "lib64" } if ccMod.Target().NativeBridge == android.NativeBridgeEnabled { dirInApex = filepath.Join(dirInApex, ccMod.Target().NativeBridgeRelativePath) } dirInApex = filepath.Join(dirInApex, ccMod.RelativeInstallPath()) if handleSpecialLibs && cc.InstallToBootstrap(ccMod.BaseModuleName(), ctx.Config()) { // Special case for Bionic libs and other libs installed with them. This is to // prevent those libs from being included in the search path // /apex/com.android.runtime/${LIB}. This exclusion is required because those libs // in the Runtime APEX are available via the legacy paths in /system/lib/. By the // init process, the libs in the APEX are bind-mounted to the legacy paths and thus // will be loaded into the default linker namespace (aka "platform" namespace). If // the libs are directly in /apex/com.android.runtime/${LIB} then the same libs will // be loaded again into the runtime linker namespace, which will result in double // loading of them, which isn't supported. dirInApex = filepath.Join(dirInApex, "bionic") } fileToCopy := ccMod.OutputFile().Path() androidMkModuleName := ccMod.BaseModuleName() + ccMod.Properties.SubName return newApexFile(ctx, fileToCopy, androidMkModuleName, dirInApex, nativeSharedLib, ccMod) } func apexFileForExecutable(ctx android.BaseModuleContext, cc *cc.Module) apexFile { dirInApex := "bin" if cc.Target().NativeBridge == android.NativeBridgeEnabled { dirInApex = filepath.Join(dirInApex, cc.Target().NativeBridgeRelativePath) } dirInApex = filepath.Join(dirInApex, cc.RelativeInstallPath()) fileToCopy := cc.OutputFile().Path() androidMkModuleName := cc.BaseModuleName() + cc.Properties.SubName af := newApexFile(ctx, fileToCopy, androidMkModuleName, dirInApex, nativeExecutable, cc) af.symlinks = cc.Symlinks() af.dataPaths = cc.DataPaths() return af } func apexFileForRustExecutable(ctx android.BaseModuleContext, rustm *rust.Module) apexFile { dirInApex := "bin" if rustm.Target().NativeBridge == android.NativeBridgeEnabled { dirInApex = filepath.Join(dirInApex, rustm.Target().NativeBridgeRelativePath) } fileToCopy := rustm.OutputFile().Path() androidMkModuleName := rustm.BaseModuleName() + rustm.Properties.SubName af := newApexFile(ctx, fileToCopy, androidMkModuleName, dirInApex, nativeExecutable, rustm) return af } func apexFileForRustLibrary(ctx android.BaseModuleContext, rustm *rust.Module) apexFile { // Decide the APEX-local directory by the multilib of the library // In the future, we may query this to the module. var dirInApex string switch rustm.Arch().ArchType.Multilib { case "lib32": dirInApex = "lib" case "lib64": dirInApex = "lib64" } if rustm.Target().NativeBridge == android.NativeBridgeEnabled { dirInApex = filepath.Join(dirInApex, rustm.Target().NativeBridgeRelativePath) } fileToCopy := rustm.OutputFile().Path() androidMkModuleName := rustm.BaseModuleName() + rustm.Properties.SubName return newApexFile(ctx, fileToCopy, androidMkModuleName, dirInApex, nativeSharedLib, rustm) } func apexFileForPyBinary(ctx android.BaseModuleContext, py *python.Module) apexFile { dirInApex := "bin" fileToCopy := py.HostToolPath().Path() return newApexFile(ctx, fileToCopy, py.BaseModuleName(), dirInApex, pyBinary, py) } func apexFileForGoBinary(ctx android.BaseModuleContext, depName string, gb bootstrap.GoBinaryTool) apexFile { dirInApex := "bin" fileToCopy := android.PathForGoBinary(ctx, gb) // NB: Since go binaries are static we don't need the module for anything here, which is // good since the go tool is a blueprint.Module not an android.Module like we would // normally use. return newApexFile(ctx, fileToCopy, depName, dirInApex, goBinary, nil) } func apexFileForShBinary(ctx android.BaseModuleContext, sh *sh.ShBinary) apexFile { dirInApex := filepath.Join("bin", sh.SubDir()) if sh.Target().NativeBridge == android.NativeBridgeEnabled { dirInApex = filepath.Join(dirInApex, sh.Target().NativeBridgeRelativePath) } fileToCopy := sh.OutputFile() af := newApexFile(ctx, fileToCopy, sh.BaseModuleName(), dirInApex, shBinary, sh) af.symlinks = sh.Symlinks() return af } func apexFileForPrebuiltEtc(ctx android.BaseModuleContext, prebuilt prebuilt_etc.PrebuiltEtcModule, depName string) apexFile { dirInApex := filepath.Join(prebuilt.BaseDir(), prebuilt.SubDir()) fileToCopy := prebuilt.OutputFile() return newApexFile(ctx, fileToCopy, depName, dirInApex, etc, prebuilt) } func apexFileForCompatConfig(ctx android.BaseModuleContext, config java.PlatformCompatConfigIntf, depName string) apexFile { dirInApex := filepath.Join("etc", config.SubDir()) fileToCopy := config.CompatConfig() return newApexFile(ctx, fileToCopy, depName, dirInApex, etc, config) } // javaModule is an interface to handle all Java modules (java_library, dex_import, etc) in the same // way. type javaModule interface { android.Module BaseModuleName() string DexJarBuildPath() java.OptionalDexJarPath JacocoReportClassesFile() android.Path LintDepSets() java.LintDepSets Stem() string } var _ javaModule = (*java.Library)(nil) var _ javaModule = (*java.Import)(nil) var _ javaModule = (*java.SdkLibrary)(nil) var _ javaModule = (*java.DexImport)(nil) var _ javaModule = (*java.SdkLibraryImport)(nil) // apexFileForJavaModule creates an apexFile for a java module's dex implementation jar. func apexFileForJavaModule(ctx android.BaseModuleContext, module javaModule) apexFile { return apexFileForJavaModuleWithFile(ctx, module, module.DexJarBuildPath().PathOrNil()) } // apexFileForJavaModuleWithFile creates an apexFile for a java module with the supplied file. func apexFileForJavaModuleWithFile(ctx android.BaseModuleContext, module javaModule, dexImplementationJar android.Path) apexFile { dirInApex := "javalib" af := newApexFile(ctx, dexImplementationJar, module.BaseModuleName(), dirInApex, javaSharedLib, module) af.jacocoReportClassesFile = module.JacocoReportClassesFile() af.lintDepSets = module.LintDepSets() af.customStem = module.Stem() + ".jar" if dexpreopter, ok := module.(java.DexpreopterInterface); ok { for _, install := range dexpreopter.DexpreoptBuiltInstalledForApex() { af.requiredModuleNames = append(af.requiredModuleNames, install.FullModuleName()) } } return af } // androidApp is an interface to handle all app modules (android_app, android_app_import, etc.) in // the same way. type androidApp interface { android.Module Privileged() bool InstallApkName() string OutputFile() android.Path JacocoReportClassesFile() android.Path Certificate() java.Certificate BaseModuleName() string LintDepSets() java.LintDepSets } var _ androidApp = (*java.AndroidApp)(nil) var _ androidApp = (*java.AndroidAppImport)(nil) func apexFileForAndroidApp(ctx android.BaseModuleContext, aapp androidApp) apexFile { appDir := "app" if aapp.Privileged() { appDir = "priv-app" } dirInApex := filepath.Join(appDir, aapp.InstallApkName()) fileToCopy := aapp.OutputFile() af := newApexFile(ctx, fileToCopy, aapp.BaseModuleName(), dirInApex, app, aapp) af.jacocoReportClassesFile = aapp.JacocoReportClassesFile() af.lintDepSets = aapp.LintDepSets() af.certificate = aapp.Certificate() if app, ok := aapp.(interface { OverriddenManifestPackageName() string }); ok { af.overriddenPackageName = app.OverriddenManifestPackageName() } return af } func apexFileForRuntimeResourceOverlay(ctx android.BaseModuleContext, rro java.RuntimeResourceOverlayModule) apexFile { rroDir := "overlay" dirInApex := filepath.Join(rroDir, rro.Theme()) fileToCopy := rro.OutputFile() af := newApexFile(ctx, fileToCopy, rro.Name(), dirInApex, app, rro) af.certificate = rro.Certificate() if a, ok := rro.(interface { OverriddenManifestPackageName() string }); ok { af.overriddenPackageName = a.OverriddenManifestPackageName() } return af } func apexFileForBpfProgram(ctx android.BaseModuleContext, builtFile android.Path, apex_sub_dir string, bpfProgram bpf.BpfModule) apexFile { dirInApex := filepath.Join("etc", "bpf", apex_sub_dir) return newApexFile(ctx, builtFile, builtFile.Base(), dirInApex, etc, bpfProgram) } func apexFileForFilesystem(ctx android.BaseModuleContext, buildFile android.Path, fs filesystem.Filesystem) apexFile { dirInApex := filepath.Join("etc", "fs") return newApexFile(ctx, buildFile, buildFile.Base(), dirInApex, etc, fs) } // WalkPayloadDeps visits dependencies that contributes to the payload of this APEX. For each of the // visited module, the `do` callback is executed. Returning true in the callback continues the visit // to the child modules. Returning false makes the visit to continue in the sibling or the parent // modules. This is used in check* functions below. func (a *apexBundle) WalkPayloadDeps(ctx android.ModuleContext, do android.PayloadDepsCallback) { ctx.WalkDeps(func(child, parent android.Module) bool { am, ok := child.(android.ApexModule) if !ok || !am.CanHaveApexVariants() { return false } // Filter-out unwanted depedendencies depTag := ctx.OtherModuleDependencyTag(child) if _, ok := depTag.(android.ExcludeFromApexContentsTag); ok { return false } if dt, ok := depTag.(dependencyTag); ok && !dt.payload { return false } ai := ctx.OtherModuleProvider(child, android.ApexInfoProvider).(android.ApexInfo) externalDep := !android.InList(ctx.ModuleName(), ai.InApexVariants) // Visit actually return do(ctx, parent, am, externalDep) }) } // filesystem type of the apex_payload.img inside the APEX. Currently, ext4 and f2fs are supported. type fsType int const ( ext4 fsType = iota f2fs erofs ) func (f fsType) string() string { switch f { case ext4: return ext4FsType case f2fs: return f2fsFsType case erofs: return erofsFsType default: panic(fmt.Errorf("unknown APEX payload type %d", f)) } } // Creates build rules for an APEX. It consists of the following major steps: // // 1) do some validity checks such as apex_available, min_sdk_version, etc. // 2) traverse the dependency tree to collect apexFile structs from them. // 3) some fields in apexBundle struct are configured // 4) generate the build rules to create the APEX. This is mostly done in builder.go. func (a *apexBundle) GenerateAndroidBuildActions(ctx android.ModuleContext) { //////////////////////////////////////////////////////////////////////////////////////////// // 1) do some validity checks such as apex_available, min_sdk_version, etc. a.checkApexAvailability(ctx) a.checkUpdatable(ctx) a.CheckMinSdkVersion(ctx) a.checkStaticLinkingToStubLibraries(ctx) a.checkStaticExecutables(ctx) if len(a.properties.Tests) > 0 && !a.testApex { ctx.PropertyErrorf("tests", "property allowed only in apex_test module type") return } //////////////////////////////////////////////////////////////////////////////////////////// // 2) traverse the dependency tree to collect apexFile structs from them. // all the files that will be included in this APEX var filesInfo []apexFile // native lib dependencies var provideNativeLibs []string var requireNativeLibs []string handleSpecialLibs := !android.Bool(a.properties.Ignore_system_library_special_case) // Collect the module directory for IDE info in java/jdeps.go. a.modulePaths = append(a.modulePaths, ctx.ModuleDir()) // TODO(jiyong): do this using WalkPayloadDeps // TODO(jiyong): make this clean!!! ctx.WalkDepsBlueprint(func(child, parent blueprint.Module) bool { depTag := ctx.OtherModuleDependencyTag(child) if _, ok := depTag.(android.ExcludeFromApexContentsTag); ok { return false } if mod, ok := child.(android.Module); ok && !mod.Enabled() { return false } depName := ctx.OtherModuleName(child) if _, isDirectDep := parent.(*apexBundle); isDirectDep { switch depTag { case sharedLibTag, jniLibTag: isJniLib := depTag == jniLibTag if c, ok := child.(*cc.Module); ok { fi := apexFileForNativeLibrary(ctx, c, handleSpecialLibs) fi.isJniLib = isJniLib filesInfo = append(filesInfo, fi) // Collect the list of stub-providing libs except: // - VNDK libs are only for vendors // - bootstrap bionic libs are treated as provided by system if c.HasStubsVariants() && !a.vndkApex && !cc.InstallToBootstrap(c.BaseModuleName(), ctx.Config()) { provideNativeLibs = append(provideNativeLibs, fi.stem()) } return true // track transitive dependencies } else if r, ok := child.(*rust.Module); ok { fi := apexFileForRustLibrary(ctx, r) fi.isJniLib = isJniLib filesInfo = append(filesInfo, fi) } else { propertyName := "native_shared_libs" if isJniLib { propertyName = "jni_libs" } ctx.PropertyErrorf(propertyName, "%q is not a cc_library or cc_library_shared module", depName) } case executableTag: if cc, ok := child.(*cc.Module); ok { filesInfo = append(filesInfo, apexFileForExecutable(ctx, cc)) return true // track transitive dependencies } else if py, ok := child.(*python.Module); ok && py.HostToolPath().Valid() { filesInfo = append(filesInfo, apexFileForPyBinary(ctx, py)) } else if gb, ok := child.(bootstrap.GoBinaryTool); ok && a.Host() { filesInfo = append(filesInfo, apexFileForGoBinary(ctx, depName, gb)) } else if rust, ok := child.(*rust.Module); ok { filesInfo = append(filesInfo, apexFileForRustExecutable(ctx, rust)) return true // track transitive dependencies } else { ctx.PropertyErrorf("binaries", "%q is neither cc_binary, rust_binary, (embedded) py_binary, (host) blueprint_go_binary, nor (host) bootstrap_go_binary", depName) } case shBinaryTag: if sh, ok := child.(*sh.ShBinary); ok { filesInfo = append(filesInfo, apexFileForShBinary(ctx, sh)) } else { ctx.PropertyErrorf("sh_binaries", "%q is not a sh_binary module", depName) } case bcpfTag: { bcpfModule, ok := child.(*java.BootclasspathFragmentModule) if !ok { ctx.PropertyErrorf("bootclasspath_fragments", "%q is not a bootclasspath_fragment module", depName) return false } filesToAdd := apexBootclasspathFragmentFiles(ctx, child) filesInfo = append(filesInfo, filesToAdd...) for _, makeModuleName := range bcpfModule.BootImageDeviceInstallMakeModules() { a.requiredDeps = append(a.requiredDeps, makeModuleName) } return true } case sscpfTag: { if _, ok := child.(*java.SystemServerClasspathModule); !ok { ctx.PropertyErrorf("systemserverclasspath_fragments", "%q is not a systemserverclasspath_fragment module", depName) return false } if af := apexClasspathFragmentProtoFile(ctx, child); af != nil { filesInfo = append(filesInfo, *af) } return true } case javaLibTag: switch child.(type) { case *java.Library, *java.SdkLibrary, *java.DexImport, *java.SdkLibraryImport, *java.Import: af := apexFileForJavaModule(ctx, child.(javaModule)) if !af.ok() { ctx.PropertyErrorf("java_libs", "%q is not configured to be compiled into dex", depName) return false } filesInfo = append(filesInfo, af) return true // track transitive dependencies default: ctx.PropertyErrorf("java_libs", "%q of type %q is not supported", depName, ctx.OtherModuleType(child)) } case androidAppTag: if ap, ok := child.(*java.AndroidApp); ok { filesInfo = append(filesInfo, apexFileForAndroidApp(ctx, ap)) return true // track transitive dependencies } else if ap, ok := child.(*java.AndroidAppImport); ok { filesInfo = append(filesInfo, apexFileForAndroidApp(ctx, ap)) } else if ap, ok := child.(*java.AndroidTestHelperApp); ok { filesInfo = append(filesInfo, apexFileForAndroidApp(ctx, ap)) } else if ap, ok := child.(*java.AndroidAppSet); ok { appDir := "app" if ap.Privileged() { appDir = "priv-app" } af := newApexFile(ctx, ap.OutputFile(), ap.BaseModuleName(), filepath.Join(appDir, ap.BaseModuleName()), appSet, ap) af.certificate = java.PresignedCertificate filesInfo = append(filesInfo, af) } else { ctx.PropertyErrorf("apps", "%q is not an android_app module", depName) } case rroTag: if rro, ok := child.(java.RuntimeResourceOverlayModule); ok { filesInfo = append(filesInfo, apexFileForRuntimeResourceOverlay(ctx, rro)) } else { ctx.PropertyErrorf("rros", "%q is not an runtime_resource_overlay module", depName) } case bpfTag: if bpfProgram, ok := child.(bpf.BpfModule); ok { filesToCopy, _ := bpfProgram.OutputFiles("") apex_sub_dir := bpfProgram.SubDir() for _, bpfFile := range filesToCopy { filesInfo = append(filesInfo, apexFileForBpfProgram(ctx, bpfFile, apex_sub_dir, bpfProgram)) } } else { ctx.PropertyErrorf("bpfs", "%q is not a bpf module", depName) } case fsTag: if fs, ok := child.(filesystem.Filesystem); ok { filesInfo = append(filesInfo, apexFileForFilesystem(ctx, fs.OutputPath(), fs)) } else { ctx.PropertyErrorf("filesystems", "%q is not a filesystem module", depName) } case prebuiltTag: if prebuilt, ok := child.(prebuilt_etc.PrebuiltEtcModule); ok { filesInfo = append(filesInfo, apexFileForPrebuiltEtc(ctx, prebuilt, depName)) } else { ctx.PropertyErrorf("prebuilts", "%q is not a prebuilt_etc module", depName) } case compatConfigTag: if compatConfig, ok := child.(java.PlatformCompatConfigIntf); ok { filesInfo = append(filesInfo, apexFileForCompatConfig(ctx, compatConfig, depName)) } else { ctx.PropertyErrorf("compat_configs", "%q is not a platform_compat_config module", depName) } case testTag: if ccTest, ok := child.(*cc.Module); ok { if ccTest.IsTestPerSrcAllTestsVariation() { // Multiple-output test module (where `test_per_src: true`). // // `ccTest` is the "" ("all tests") variation of a `test_per_src` module. // We do not add this variation to `filesInfo`, as it has no output; // however, we do add the other variations of this module as indirect // dependencies (see below). } else { // Single-output test module (where `test_per_src: false`). af := apexFileForExecutable(ctx, ccTest) af.class = nativeTest filesInfo = append(filesInfo, af) } return true // track transitive dependencies } else { ctx.PropertyErrorf("tests", "%q is not a cc module", depName) } case keyTag: if key, ok := child.(*apexKey); ok { a.privateKeyFile = key.privateKeyFile a.publicKeyFile = key.publicKeyFile } else { ctx.PropertyErrorf("key", "%q is not an apex_key module", depName) } return false case certificateTag: if dep, ok := child.(*java.AndroidAppCertificate); ok { a.containerCertificateFile = dep.Certificate.Pem a.containerPrivateKeyFile = dep.Certificate.Key } else { ctx.ModuleErrorf("certificate dependency %q must be an android_app_certificate module", depName) } case android.PrebuiltDepTag: // If the prebuilt is force disabled, remember to delete the prebuilt file // that might have been installed in the previous builds if prebuilt, ok := child.(prebuilt); ok && prebuilt.isForceDisabled() { a.prebuiltFileToDelete = prebuilt.InstallFilename() } } } else if !a.vndkApex { // indirect dependencies if am, ok := child.(android.ApexModule); ok { // We cannot use a switch statement on `depTag` here as the checked // tags used below are private (e.g. `cc.sharedDepTag`). if cc.IsSharedDepTag(depTag) || cc.IsRuntimeDepTag(depTag) { if cc, ok := child.(*cc.Module); ok { if cc.UseVndk() && proptools.Bool(a.properties.Use_vndk_as_stable) && cc.IsVndk() { requireNativeLibs = append(requireNativeLibs, ":vndk") return false } af := apexFileForNativeLibrary(ctx, cc, handleSpecialLibs) af.transitiveDep = true // Always track transitive dependencies for host. if a.Host() { filesInfo = append(filesInfo, af) return true } abInfo := ctx.Provider(ApexBundleInfoProvider).(ApexBundleInfo) if !abInfo.Contents.DirectlyInApex(depName) && (cc.IsStubs() || cc.HasStubsVariants()) { // If the dependency is a stubs lib, don't include it in this APEX, // but make sure that the lib is installed on the device. // In case no APEX is having the lib, the lib is installed to the system // partition. // // Always include if we are a host-apex however since those won't have any // system libraries. if !am.DirectlyInAnyApex() { // we need a module name for Make name := cc.ImplementationModuleNameForMake(ctx) + cc.Properties.SubName if !android.InList(name, a.requiredDeps) { a.requiredDeps = append(a.requiredDeps, name) } } requireNativeLibs = append(requireNativeLibs, af.stem()) // Don't track further return false } // If the dep is not considered to be in the same // apex, don't add it to filesInfo so that it is not // included in this APEX. // TODO(jiyong): move this to at the top of the // else-if clause for the indirect dependencies. // Currently, that's impossible because we would // like to record requiredNativeLibs even when // DepIsInSameAPex is false. We also shouldn't do // this for host. // // TODO(jiyong): explain why the same module is passed in twice. // Switching the first am to parent breaks lots of tests. if !android.IsDepInSameApex(ctx, am, am) { return false } filesInfo = append(filesInfo, af) return true // track transitive dependencies } else if rm, ok := child.(*rust.Module); ok { af := apexFileForRustLibrary(ctx, rm) af.transitiveDep = true filesInfo = append(filesInfo, af) return true // track transitive dependencies } } else if cc.IsTestPerSrcDepTag(depTag) { if cc, ok := child.(*cc.Module); ok { af := apexFileForExecutable(ctx, cc) // Handle modules created as `test_per_src` variations of a single test module: // use the name of the generated test binary (`fileToCopy`) instead of the name // of the original test module (`depName`, shared by all `test_per_src` // variations of that module). af.androidMkModuleName = filepath.Base(af.builtFile.String()) // these are not considered transitive dep af.transitiveDep = false filesInfo = append(filesInfo, af) return true // track transitive dependencies } } else if cc.IsHeaderDepTag(depTag) { // nothing } else if java.IsJniDepTag(depTag) { // Because APK-in-APEX embeds jni_libs transitively, we don't need to track transitive deps return false } else if java.IsXmlPermissionsFileDepTag(depTag) { if prebuilt, ok := child.(prebuilt_etc.PrebuiltEtcModule); ok { filesInfo = append(filesInfo, apexFileForPrebuiltEtc(ctx, prebuilt, depName)) } } else if rust.IsDylibDepTag(depTag) { if rustm, ok := child.(*rust.Module); ok && rustm.IsInstallableToApex() { af := apexFileForRustLibrary(ctx, rustm) af.transitiveDep = true filesInfo = append(filesInfo, af) return true // track transitive dependencies } } else if rust.IsRlibDepTag(depTag) { // Rlib is statically linked, but it might have shared lib // dependencies. Track them. return true } else if java.IsBootclasspathFragmentContentDepTag(depTag) { // Add the contents of the bootclasspath fragment to the apex. switch child.(type) { case *java.Library, *java.SdkLibrary: javaModule := child.(javaModule) af := apexFileForBootclasspathFragmentContentModule(ctx, parent, javaModule) if !af.ok() { ctx.PropertyErrorf("bootclasspath_fragments", "bootclasspath_fragment content %q is not configured to be compiled into dex", depName) return false } filesInfo = append(filesInfo, af) return true // track transitive dependencies default: ctx.PropertyErrorf("bootclasspath_fragments", "bootclasspath_fragment content %q of type %q is not supported", depName, ctx.OtherModuleType(child)) } } else if java.IsSystemServerClasspathFragmentContentDepTag(depTag) { // Add the contents of the systemserverclasspath fragment to the apex. switch child.(type) { case *java.Library, *java.SdkLibrary: af := apexFileForJavaModule(ctx, child.(javaModule)) filesInfo = append(filesInfo, af) return true // track transitive dependencies default: ctx.PropertyErrorf("systemserverclasspath_fragments", "systemserverclasspath_fragment content %q of type %q is not supported", depName, ctx.OtherModuleType(child)) } } else if _, ok := depTag.(android.CopyDirectlyInAnyApexTag); ok { // nothing } else if depTag == android.DarwinUniversalVariantTag { // nothing } else if am.CanHaveApexVariants() && am.IsInstallableToApex() { ctx.ModuleErrorf("unexpected tag %s for indirect dependency %q", android.PrettyPrintTag(depTag), depName) } } } return false }) if a.privateKeyFile == nil { ctx.PropertyErrorf("key", "private_key for %q could not be found", String(a.overridableProperties.Key)) return } // Remove duplicates in filesInfo removeDup := func(filesInfo []apexFile) []apexFile { encountered := make(map[string]apexFile) for _, f := range filesInfo { dest := filepath.Join(f.installDir, f.builtFile.Base()) if e, ok := encountered[dest]; !ok { encountered[dest] = f } else { // If a module is directly included and also transitively depended on // consider it as directly included. e.transitiveDep = e.transitiveDep && f.transitiveDep encountered[dest] = e } } var result []apexFile for _, v := range encountered { result = append(result, v) } return result } filesInfo = removeDup(filesInfo) // Sort to have consistent build rules sort.Slice(filesInfo, func(i, j int) bool { // Sort by destination path so as to ensure consistent ordering even if the source of the files // changes. return filesInfo[i].path() < filesInfo[j].path() }) //////////////////////////////////////////////////////////////////////////////////////////// // 3) some fields in apexBundle struct are configured a.installDir = android.PathForModuleInstall(ctx, "apex") a.filesInfo = filesInfo // Set suffix and primaryApexType depending on the ApexType buildFlattenedAsDefault := ctx.Config().FlattenApex() switch a.properties.ApexType { case imageApex: if buildFlattenedAsDefault { a.suffix = imageApexSuffix } else { a.suffix = "" a.primaryApexType = true if ctx.Config().InstallExtraFlattenedApexes() { a.requiredDeps = append(a.requiredDeps, a.Name()+flattenedSuffix) } } case zipApex: if proptools.String(a.properties.Payload_type) == "zip" { a.suffix = "" a.primaryApexType = true } else { a.suffix = zipApexSuffix } case flattenedApex: if buildFlattenedAsDefault { a.suffix = "" a.primaryApexType = true } else { a.suffix = flattenedSuffix } } switch proptools.StringDefault(a.properties.Payload_fs_type, ext4FsType) { case ext4FsType: a.payloadFsType = ext4 case f2fsFsType: a.payloadFsType = f2fs case erofsFsType: a.payloadFsType = erofs default: ctx.PropertyErrorf("payload_fs_type", "%q is not a valid filesystem for apex [ext4, f2fs, erofs]", *a.properties.Payload_fs_type) } // Optimization. If we are building bundled APEX, for the files that are gathered due to the // transitive dependencies, don't place them inside the APEX, but place a symlink pointing // the same library in the system partition, thus effectively sharing the same libraries // across the APEX boundary. For unbundled APEX, all the gathered files are actually placed // in the APEX. a.linkToSystemLib = !ctx.Config().UnbundledBuild() && a.installable() // APEXes targeting other than system/system_ext partitions use vendor/product variants. // So we can't link them to /system/lib libs which are core variants. if a.SocSpecific() || a.DeviceSpecific() || (a.ProductSpecific() && ctx.Config().EnforceProductPartitionInterface()) { a.linkToSystemLib = false } forced := ctx.Config().ForceApexSymlinkOptimization() updatable := a.Updatable() || a.FutureUpdatable() // We don't need the optimization for updatable APEXes, as it might give false signal // to the system health when the APEXes are still bundled (b/149805758). if !forced && updatable && a.properties.ApexType == imageApex { a.linkToSystemLib = false } // We also don't want the optimization for host APEXes, because it doesn't make sense. if ctx.Host() { a.linkToSystemLib = false } if a.properties.ApexType != zipApex { a.compatSymlinks = makeCompatSymlinks(a.BaseModuleName(), ctx, a.primaryApexType) } //////////////////////////////////////////////////////////////////////////////////////////// // 4) generate the build rules to create the APEX. This is done in builder.go. a.buildManifest(ctx, provideNativeLibs, requireNativeLibs) if a.properties.ApexType == flattenedApex { a.buildFlattenedApex(ctx) } else { a.buildUnflattenedApex(ctx) } a.buildApexDependencyInfo(ctx) a.buildLintReports(ctx) // Append meta-files to the filesInfo list so that they are reflected in Android.mk as well. if a.installable() { // For flattened APEX, make sure that APEX manifest and apex_pubkey are also copied // along with other ordinary files. (Note that this is done by apexer for // non-flattened APEXes) a.filesInfo = append(a.filesInfo, newApexFile(ctx, a.manifestPbOut, "apex_manifest.pb", ".", etc, nil)) // Place the public key as apex_pubkey. This is also done by apexer for // non-flattened APEXes case. // TODO(jiyong): Why do we need this CP rule? copiedPubkey := android.PathForModuleOut(ctx, "apex_pubkey") ctx.Build(pctx, android.BuildParams{ Rule: android.Cp, Input: a.publicKeyFile, Output: copiedPubkey, }) a.filesInfo = append(a.filesInfo, newApexFile(ctx, copiedPubkey, "apex_pubkey", ".", etc, nil)) } } // apexBootclasspathFragmentFiles returns the list of apexFile structures defining the files that // the bootclasspath_fragment contributes to the apex. func apexBootclasspathFragmentFiles(ctx android.ModuleContext, module blueprint.Module) []apexFile { bootclasspathFragmentInfo := ctx.OtherModuleProvider(module, java.BootclasspathFragmentApexContentInfoProvider).(java.BootclasspathFragmentApexContentInfo) var filesToAdd []apexFile // Add the boot image files, e.g. .art, .oat and .vdex files. if bootclasspathFragmentInfo.ShouldInstallBootImageInApex() { for arch, files := range bootclasspathFragmentInfo.AndroidBootImageFilesByArchType() { dirInApex := filepath.Join("javalib", arch.String()) for _, f := range files { androidMkModuleName := "javalib_" + arch.String() + "_" + filepath.Base(f.String()) // TODO(b/177892522) - consider passing in the bootclasspath fragment module here instead of nil af := newApexFile(ctx, f, androidMkModuleName, dirInApex, etc, nil) filesToAdd = append(filesToAdd, af) } } } // Add classpaths.proto config. if af := apexClasspathFragmentProtoFile(ctx, module); af != nil { filesToAdd = append(filesToAdd, *af) } if pathInApex := bootclasspathFragmentInfo.ProfileInstallPathInApex(); pathInApex != "" { pathOnHost := bootclasspathFragmentInfo.ProfilePathOnHost() tempPath := android.PathForModuleOut(ctx, "boot_image_profile", pathInApex) if pathOnHost != nil { // We need to copy the profile to a temporary path with the right filename because the apexer // will take the filename as is. ctx.Build(pctx, android.BuildParams{ Rule: android.Cp, Input: pathOnHost, Output: tempPath, }) } else { // At this point, the boot image profile cannot be generated. It is probably because the boot // image profile source file does not exist on the branch, or it is not available for the // current build target. // However, we cannot enforce the boot image profile to be generated because some build // targets (such as module SDK) do not need it. It is only needed when the APEX is being // built. Therefore, we create an error rule so that an error will occur at the ninja phase // only if the APEX is being built. ctx.Build(pctx, android.BuildParams{ Rule: android.ErrorRule, Output: tempPath, Args: map[string]string{ "error": "Boot image profile cannot be generated", }, }) } androidMkModuleName := filepath.Base(pathInApex) af := newApexFile(ctx, tempPath, androidMkModuleName, filepath.Dir(pathInApex), etc, nil) filesToAdd = append(filesToAdd, af) } return filesToAdd } // apexClasspathFragmentProtoFile returns *apexFile structure defining the classpath.proto config that // the module contributes to the apex; or nil if the proto config was not generated. func apexClasspathFragmentProtoFile(ctx android.ModuleContext, module blueprint.Module) *apexFile { info := ctx.OtherModuleProvider(module, java.ClasspathFragmentProtoContentInfoProvider).(java.ClasspathFragmentProtoContentInfo) if !info.ClasspathFragmentProtoGenerated { return nil } classpathProtoOutput := info.ClasspathFragmentProtoOutput af := newApexFile(ctx, classpathProtoOutput, classpathProtoOutput.Base(), info.ClasspathFragmentProtoInstallDir.Rel(), etc, nil) return &af } // apexFileForBootclasspathFragmentContentModule creates an apexFile for a bootclasspath_fragment // content module, i.e. a library that is part of the bootclasspath. func apexFileForBootclasspathFragmentContentModule(ctx android.ModuleContext, fragmentModule blueprint.Module, javaModule javaModule) apexFile { bootclasspathFragmentInfo := ctx.OtherModuleProvider(fragmentModule, java.BootclasspathFragmentApexContentInfoProvider).(java.BootclasspathFragmentApexContentInfo) // Get the dexBootJar from the bootclasspath_fragment as that is responsible for performing the // hidden API encpding. dexBootJar, err := bootclasspathFragmentInfo.DexBootJarPathForContentModule(javaModule) if err != nil { ctx.ModuleErrorf("%s", err) } // Create an apexFile as for a normal java module but with the dex boot jar provided by the // bootclasspath_fragment. af := apexFileForJavaModuleWithFile(ctx, javaModule, dexBootJar) return af } /////////////////////////////////////////////////////////////////////////////////////////////////// // Factory functions // func newApexBundle() *apexBundle { module := &apexBundle{} module.AddProperties(&module.properties) module.AddProperties(&module.targetProperties) module.AddProperties(&module.archProperties) module.AddProperties(&module.overridableProperties) android.InitAndroidMultiTargetsArchModule(module, android.HostAndDeviceSupported, android.MultilibCommon) android.InitDefaultableModule(module) android.InitSdkAwareModule(module) android.InitOverridableModule(module, &module.overridableProperties.Overrides) android.InitBazelModule(module) return module } func ApexBundleFactory(testApex bool) android.Module { bundle := newApexBundle() bundle.testApex = testApex return bundle } // apex_test is an APEX for testing. The difference from the ordinary apex module type is that // certain compatibility checks such as apex_available are not done for apex_test. func testApexBundleFactory() android.Module { bundle := newApexBundle() bundle.testApex = true return bundle } // apex packages other modules into an APEX file which is a packaging format for system-level // components like binaries, shared libraries, etc. func BundleFactory() android.Module { return newApexBundle() } type Defaults struct { android.ModuleBase android.DefaultsModuleBase } // apex_defaults provides defaultable properties to other apex modules. func defaultsFactory() android.Module { return DefaultsFactory() } func DefaultsFactory(props ...interface{}) android.Module { module := &Defaults{} module.AddProperties(props...) module.AddProperties( &apexBundleProperties{}, &apexTargetBundleProperties{}, &overridableProperties{}, ) android.InitDefaultsModule(module) return module } type OverrideApex struct { android.ModuleBase android.OverrideModuleBase } func (o *OverrideApex) GenerateAndroidBuildActions(ctx android.ModuleContext) { // All the overrides happen in the base module. } // override_apex is used to create an apex module based on another apex module by overriding some of // its properties. func overrideApexFactory() android.Module { m := &OverrideApex{} m.AddProperties(&overridableProperties{}) android.InitAndroidMultiTargetsArchModule(m, android.DeviceSupported, android.MultilibCommon) android.InitOverrideModule(m) return m } /////////////////////////////////////////////////////////////////////////////////////////////////// // Vality check routines // // These are called in at the very beginning of GenerateAndroidBuildActions to flag an error when // certain conditions are not met. // // TODO(jiyong): move these checks to a separate go file. var _ android.ModuleWithMinSdkVersionCheck = (*apexBundle)(nil) // Entures that min_sdk_version of the included modules are equal or less than the min_sdk_version // of this apexBundle. func (a *apexBundle) CheckMinSdkVersion(ctx android.ModuleContext) { if a.testApex || a.vndkApex { return } // apexBundle::minSdkVersion reports its own errors. minSdkVersion := a.minSdkVersion(ctx) android.CheckMinSdkVersion(ctx, minSdkVersion, a.WalkPayloadDeps) } func (a *apexBundle) MinSdkVersion(ctx android.EarlyModuleContext) android.SdkSpec { return android.SdkSpec{ Kind: android.SdkNone, ApiLevel: a.minSdkVersion(ctx), Raw: String(a.properties.Min_sdk_version), } } func (a *apexBundle) minSdkVersion(ctx android.EarlyModuleContext) android.ApiLevel { ver := proptools.String(a.properties.Min_sdk_version) if ver == "" { return android.NoneApiLevel } apiLevel, err := android.ApiLevelFromUser(ctx, ver) if err != nil { ctx.PropertyErrorf("min_sdk_version", "%s", err.Error()) return android.NoneApiLevel } return apiLevel } // Ensures that a lib providing stub isn't statically linked func (a *apexBundle) checkStaticLinkingToStubLibraries(ctx android.ModuleContext) { // Practically, we only care about regular APEXes on the device. if ctx.Host() || a.testApex || a.vndkApex { return } abInfo := ctx.Provider(ApexBundleInfoProvider).(ApexBundleInfo) a.WalkPayloadDeps(ctx, func(ctx android.ModuleContext, from blueprint.Module, to android.ApexModule, externalDep bool) bool { if ccm, ok := to.(*cc.Module); ok { apexName := ctx.ModuleName() fromName := ctx.OtherModuleName(from) toName := ctx.OtherModuleName(to) // If `to` is not actually in the same APEX as `from` then it does not need // apex_available and neither do any of its dependencies. // // It is ok to call DepIsInSameApex() directly from within WalkPayloadDeps(). if am, ok := from.(android.DepIsInSameApex); ok && !am.DepIsInSameApex(ctx, to) { // As soon as the dependency graph crosses the APEX boundary, don't go further. return false } // The dynamic linker and crash_dump tool in the runtime APEX is the only // exception to this rule. It can't make the static dependencies dynamic // because it can't do the dynamic linking for itself. // Same rule should be applied to linkerconfig, because it should be executed // only with static linked libraries before linker is available with ld.config.txt if apexName == "com.android.runtime" && (fromName == "linker" || fromName == "crash_dump" || fromName == "linkerconfig") { return false } isStubLibraryFromOtherApex := ccm.HasStubsVariants() && !abInfo.Contents.DirectlyInApex(toName) if isStubLibraryFromOtherApex && !externalDep { ctx.ModuleErrorf("%q required by %q is a native library providing stub. "+ "It shouldn't be included in this APEX via static linking. Dependency path: %s", to.String(), fromName, ctx.GetPathString(false)) } } return true }) } // checkUpdatable enforces APEX and its transitive dep properties to have desired values for updatable APEXes. func (a *apexBundle) checkUpdatable(ctx android.ModuleContext) { if a.Updatable() { if String(a.properties.Min_sdk_version) == "" { ctx.PropertyErrorf("updatable", "updatable APEXes should set min_sdk_version as well") } if a.UsePlatformApis() { ctx.PropertyErrorf("updatable", "updatable APEXes can't use platform APIs") } if a.SocSpecific() || a.DeviceSpecific() { ctx.PropertyErrorf("updatable", "vendor APEXes are not updatable") } if a.FutureUpdatable() { ctx.PropertyErrorf("future_updatable", "Already updatable. Remove `future_updatable: true:`") } a.checkJavaStableSdkVersion(ctx) a.checkClasspathFragments(ctx) } } // checkClasspathFragments enforces that all classpath fragments in deps generate classpaths.proto config. func (a *apexBundle) checkClasspathFragments(ctx android.ModuleContext) { ctx.VisitDirectDeps(func(module android.Module) { if tag := ctx.OtherModuleDependencyTag(module); tag == bcpfTag || tag == sscpfTag { info := ctx.OtherModuleProvider(module, java.ClasspathFragmentProtoContentInfoProvider).(java.ClasspathFragmentProtoContentInfo) if !info.ClasspathFragmentProtoGenerated { ctx.OtherModuleErrorf(module, "is included in updatable apex %v, it must not set generate_classpaths_proto to false", ctx.ModuleName()) } } }) } // checkJavaStableSdkVersion enforces that all Java deps are using stable SDKs to compile. func (a *apexBundle) checkJavaStableSdkVersion(ctx android.ModuleContext) { // Visit direct deps only. As long as we guarantee top-level deps are using stable SDKs, // java's checkLinkType guarantees correct usage for transitive deps ctx.VisitDirectDepsBlueprint(func(module blueprint.Module) { tag := ctx.OtherModuleDependencyTag(module) switch tag { case javaLibTag, androidAppTag: if m, ok := module.(interface { CheckStableSdkVersion(ctx android.BaseModuleContext) error }); ok { if err := m.CheckStableSdkVersion(ctx); err != nil { ctx.ModuleErrorf("cannot depend on \"%v\": %v", ctx.OtherModuleName(module), err) } } } }) } // checkApexAvailability ensures that the all the dependencies are marked as available for this APEX. func (a *apexBundle) checkApexAvailability(ctx android.ModuleContext) { // Let's be practical. Availability for test, host, and the VNDK apex isn't important if ctx.Host() || a.testApex || a.vndkApex { return } // Because APEXes targeting other than system/system_ext partitions can't set // apex_available, we skip checks for these APEXes if a.SocSpecific() || a.DeviceSpecific() || (a.ProductSpecific() && ctx.Config().EnforceProductPartitionInterface()) { return } // Coverage build adds additional dependencies for the coverage-only runtime libraries. // Requiring them and their transitive depencies with apex_available is not right // because they just add noise. if ctx.Config().IsEnvTrue("EMMA_INSTRUMENT") || a.IsNativeCoverageNeeded(ctx) { return } a.WalkPayloadDeps(ctx, func(ctx android.ModuleContext, from blueprint.Module, to android.ApexModule, externalDep bool) bool { // As soon as the dependency graph crosses the APEX boundary, don't go further. if externalDep { return false } apexName := ctx.ModuleName() fromName := ctx.OtherModuleName(from) toName := ctx.OtherModuleName(to) // If `to` is not actually in the same APEX as `from` then it does not need // apex_available and neither do any of its dependencies. // // It is ok to call DepIsInSameApex() directly from within WalkPayloadDeps(). if am, ok := from.(android.DepIsInSameApex); ok && !am.DepIsInSameApex(ctx, to) { // As soon as the dependency graph crosses the APEX boundary, don't go // further. return false } if to.AvailableFor(apexName) || baselineApexAvailable(apexName, toName) { return true } ctx.ModuleErrorf("%q requires %q that doesn't list the APEX under 'apex_available'."+ "\n\nDependency path:%s\n\n"+ "Consider adding %q to 'apex_available' property of %q", fromName, toName, ctx.GetPathString(true), apexName, toName) // Visit this module's dependencies to check and report any issues with their availability. return true }) } // checkStaticExecutable ensures that executables in an APEX are not static. func (a *apexBundle) checkStaticExecutables(ctx android.ModuleContext) { // No need to run this for host APEXes if ctx.Host() { return } ctx.VisitDirectDepsBlueprint(func(module blueprint.Module) { if ctx.OtherModuleDependencyTag(module) != executableTag { return } if l, ok := module.(cc.LinkableInterface); ok && l.StaticExecutable() { apex := a.ApexVariationName() exec := ctx.OtherModuleName(module) if isStaticExecutableAllowed(apex, exec) { return } ctx.ModuleErrorf("executable %s is static", ctx.OtherModuleName(module)) } }) } // A small list of exceptions where static executables are allowed in APEXes. func isStaticExecutableAllowed(apex string, exec string) bool { m := map[string][]string{ "com.android.runtime": []string{ "linker", "linkerconfig", }, } execNames, ok := m[apex] return ok && android.InList(exec, execNames) } // Collect information for opening IDE project files in java/jdeps.go. func (a *apexBundle) IDEInfo(dpInfo *android.IdeInfo) { dpInfo.Deps = append(dpInfo.Deps, a.properties.Java_libs...) dpInfo.Deps = append(dpInfo.Deps, a.properties.Bootclasspath_fragments...) dpInfo.Deps = append(dpInfo.Deps, a.properties.Systemserverclasspath_fragments...) dpInfo.Paths = append(dpInfo.Paths, a.modulePaths...) } var ( apexAvailBaseline = makeApexAvailableBaseline() inverseApexAvailBaseline = invertApexBaseline(apexAvailBaseline) ) func baselineApexAvailable(apex, moduleName string) bool { key := apex moduleName = normalizeModuleName(moduleName) if val, ok := apexAvailBaseline[key]; ok && android.InList(moduleName, val) { return true } key = android.AvailableToAnyApex if val, ok := apexAvailBaseline[key]; ok && android.InList(moduleName, val) { return true } return false } func normalizeModuleName(moduleName string) string { // Prebuilt modules (e.g. java_import, etc.) have "prebuilt_" prefix added by the build // system. Trim the prefix for the check since they are confusing moduleName = android.RemoveOptionalPrebuiltPrefix(moduleName) if strings.HasPrefix(moduleName, "libclang_rt.") { // This module has many arch variants that depend on the product being built. // We don't want to list them all moduleName = "libclang_rt" } if strings.HasPrefix(moduleName, "androidx.") { // TODO(b/156996905) Set apex_available/min_sdk_version for androidx support libraries moduleName = "androidx" } return moduleName } // Transform the map of apex -> modules to module -> apexes. func invertApexBaseline(m map[string][]string) map[string][]string { r := make(map[string][]string) for apex, modules := range m { for _, module := range modules { r[module] = append(r[module], apex) } } return r } // Retrieve the baseline of apexes to which the supplied module belongs. func BaselineApexAvailable(moduleName string) []string { return inverseApexAvailBaseline[normalizeModuleName(moduleName)] } // This is a map from apex to modules, which overrides the apex_available setting for that // particular module to make it available for the apex regardless of its setting. // TODO(b/147364041): remove this func makeApexAvailableBaseline() map[string][]string { // The "Module separator"s below are employed to minimize merge conflicts. m := make(map[string][]string) // // Module separator // m["com.android.appsearch"] = []string{ "icing-java-proto-lite", "libprotobuf-java-lite", } // // Module separator // m["com.android.bluetooth"] = []string{ "android.hardware.audio.common@5.0", "android.hardware.bluetooth.a2dp@1.0", "android.hardware.bluetooth.audio@2.0", "android.hardware.bluetooth@1.0", "android.hardware.bluetooth@1.1", "android.hardware.graphics.bufferqueue@1.0", "android.hardware.graphics.bufferqueue@2.0", "android.hardware.graphics.common@1.0", "android.hardware.graphics.common@1.1", "android.hardware.graphics.common@1.2", "android.hardware.media@1.0", "android.hidl.safe_union@1.0", "android.hidl.token@1.0", "android.hidl.token@1.0-utils", "avrcp-target-service", "avrcp_headers", "bluetooth-protos-lite", "bluetooth.mapsapi", "com.android.vcard", "dnsresolver_aidl_interface-V2-java", "ipmemorystore-aidl-interfaces-V5-java", "ipmemorystore-aidl-interfaces-java", "internal_include_headers", "lib-bt-packets", "lib-bt-packets-avrcp", "lib-bt-packets-base", "libFraunhoferAAC", "libaudio-a2dp-hw-utils", "libaudio-hearing-aid-hw-utils", "libbluetooth", "libbluetooth-types", "libbluetooth-types-header", "libbluetooth_gd", "libbluetooth_headers", "libbluetooth_jni", "libbt-audio-hal-interface", "libbt-bta", "libbt-common", "libbt-hci", "libbt-platform-protos-lite", "libbt-protos-lite", "libbt-sbc-decoder", "libbt-sbc-encoder", "libbt-stack", "libbt-utils", "libbtcore", "libbtdevice", "libbte", "libbtif", "libchrome", "libevent", "libfmq", "libg722codec", "libgui_headers", "libmedia_headers", "libmodpb64", "libosi", "libstagefright_foundation_headers", "libstagefright_headers", "libstatslog", "libstatssocket", "libtinyxml2", "libudrv-uipc", "libz", "media_plugin_headers", "net-utils-services-common", "netd_aidl_interface-unstable-java", "netd_event_listener_interface-java", "netlink-client", "networkstack-client", "sap-api-java-static", "services.net", } // // Module separator // m["com.android.cellbroadcast"] = []string{"CellBroadcastApp", "CellBroadcastServiceModule"} // // Module separator // m["com.android.extservices"] = []string{ "error_prone_annotations", "ExtServices-core", "ExtServices", "libtextclassifier-java", "libz_current", "textclassifier-statsd", "TextClassifierNotificationLibNoManifest", "TextClassifierServiceLibNoManifest", } // // Module separator // m["com.android.neuralnetworks"] = []string{ "android.hardware.neuralnetworks@1.0", "android.hardware.neuralnetworks@1.1", "android.hardware.neuralnetworks@1.2", "android.hardware.neuralnetworks@1.3", "android.hidl.allocator@1.0", "android.hidl.memory.token@1.0", "android.hidl.memory@1.0", "android.hidl.safe_union@1.0", "libarect", "libbuildversion", "libmath", "libprocpartition", } // // Module separator // m["com.android.media"] = []string{ "android.frameworks.bufferhub@1.0", "android.hardware.cas.native@1.0", "android.hardware.cas@1.0", "android.hardware.configstore-utils", "android.hardware.configstore@1.0", "android.hardware.configstore@1.1", "android.hardware.graphics.allocator@2.0", "android.hardware.graphics.allocator@3.0", "android.hardware.graphics.bufferqueue@1.0", "android.hardware.graphics.bufferqueue@2.0", "android.hardware.graphics.common@1.0", "android.hardware.graphics.common@1.1", "android.hardware.graphics.common@1.2", "android.hardware.graphics.mapper@2.0", "android.hardware.graphics.mapper@2.1", "android.hardware.graphics.mapper@3.0", "android.hardware.media.omx@1.0", "android.hardware.media@1.0", "android.hidl.allocator@1.0", "android.hidl.memory.token@1.0", "android.hidl.memory@1.0", "android.hidl.token@1.0", "android.hidl.token@1.0-utils", "bionic_libc_platform_headers", "exoplayer2-extractor", "exoplayer2-extractor-annotation-stubs", "gl_headers", "jsr305", "libEGL", "libEGL_blobCache", "libEGL_getProcAddress", "libFLAC", "libFLAC-config", "libFLAC-headers", "libGLESv2", "libaacextractor", "libamrextractor", "libarect", "libaudio_system_headers", "libaudioclient", "libaudioclient_headers", "libaudiofoundation", "libaudiofoundation_headers", "libaudiomanager", "libaudiopolicy", "libaudioutils", "libaudioutils_fixedfft", "libbluetooth-types-header", "libbufferhub", "libbufferhub_headers", "libbufferhubqueue", "libc_malloc_debug_backtrace", "libcamera_client", "libcamera_metadata", "libdvr_headers", "libexpat", "libfifo", "libflacextractor", "libgrallocusage", "libgraphicsenv", "libgui", "libgui_headers", "libhardware_headers", "libinput", "liblzma", "libmath", "libmedia", "libmedia_codeclist", "libmedia_headers", "libmedia_helper", "libmedia_helper_headers", "libmedia_midiiowrapper", "libmedia_omx", "libmediautils", "libmidiextractor", "libmkvextractor", "libmp3extractor", "libmp4extractor", "libmpeg2extractor", "libnativebase_headers", "libnativewindow_headers", "libnblog", "liboggextractor", "libpackagelistparser", "libpdx", "libpdx_default_transport", "libpdx_headers", "libpdx_uds", "libprocinfo", "libspeexresampler", "libspeexresampler", "libstagefright_esds", "libstagefright_flacdec", "libstagefright_flacdec", "libstagefright_foundation", "libstagefright_foundation_headers", "libstagefright_foundation_without_imemory", "libstagefright_headers", "libstagefright_id3", "libstagefright_metadatautils", "libstagefright_mpeg2extractor", "libstagefright_mpeg2support", "libui", "libui_headers", "libunwindstack", "libvibrator", "libvorbisidec", "libwavextractor", "libwebm", "media_ndk_headers", "media_plugin_headers", "updatable-media", } // // Module separator // m["com.android.media.swcodec"] = []string{ "android.frameworks.bufferhub@1.0", "android.hardware.common-ndk_platform", "android.hardware.configstore-utils", "android.hardware.configstore@1.0", "android.hardware.configstore@1.1", "android.hardware.graphics.allocator@2.0", "android.hardware.graphics.allocator@3.0", "android.hardware.graphics.allocator@4.0", "android.hardware.graphics.bufferqueue@1.0", "android.hardware.graphics.bufferqueue@2.0", "android.hardware.graphics.common-ndk_platform", "android.hardware.graphics.common@1.0", "android.hardware.graphics.common@1.1", "android.hardware.graphics.common@1.2", "android.hardware.graphics.mapper@2.0", "android.hardware.graphics.mapper@2.1", "android.hardware.graphics.mapper@3.0", "android.hardware.graphics.mapper@4.0", "android.hardware.media.bufferpool@2.0", "android.hardware.media.c2@1.0", "android.hardware.media.c2@1.1", "android.hardware.media.omx@1.0", "android.hardware.media@1.0", "android.hardware.media@1.0", "android.hidl.memory.token@1.0", "android.hidl.memory@1.0", "android.hidl.safe_union@1.0", "android.hidl.token@1.0", "android.hidl.token@1.0-utils", "libEGL", "libFLAC", "libFLAC-config", "libFLAC-headers", "libFraunhoferAAC", "libLibGuiProperties", "libarect", "libaudio_system_headers", "libaudioutils", "libaudioutils", "libaudioutils_fixedfft", "libavcdec", "libavcenc", "libavservices_minijail", "libavservices_minijail", "libbinderthreadstateutils", "libbluetooth-types-header", "libbufferhub_headers", "libcodec2", "libcodec2_headers", "libcodec2_hidl@1.0", "libcodec2_hidl@1.1", "libcodec2_internal", "libcodec2_soft_aacdec", "libcodec2_soft_aacenc", "libcodec2_soft_amrnbdec", "libcodec2_soft_amrnbenc", "libcodec2_soft_amrwbdec", "libcodec2_soft_amrwbenc", "libcodec2_soft_av1dec_gav1", "libcodec2_soft_avcdec", "libcodec2_soft_avcenc", "libcodec2_soft_common", "libcodec2_soft_flacdec", "libcodec2_soft_flacenc", "libcodec2_soft_g711alawdec", "libcodec2_soft_g711mlawdec", "libcodec2_soft_gsmdec", "libcodec2_soft_h263dec", "libcodec2_soft_h263enc", "libcodec2_soft_hevcdec", "libcodec2_soft_hevcenc", "libcodec2_soft_mp3dec", "libcodec2_soft_mpeg2dec", "libcodec2_soft_mpeg4dec", "libcodec2_soft_mpeg4enc", "libcodec2_soft_opusdec", "libcodec2_soft_opusenc", "libcodec2_soft_rawdec", "libcodec2_soft_vorbisdec", "libcodec2_soft_vp8dec", "libcodec2_soft_vp8enc", "libcodec2_soft_vp9dec", "libcodec2_soft_vp9enc", "libcodec2_vndk", "libdvr_headers", "libfmq", "libfmq", "libgav1", "libgralloctypes", "libgrallocusage", "libgraphicsenv", "libgsm", "libgui_bufferqueue_static", "libgui_headers", "libhardware", "libhardware_headers", "libhevcdec", "libhevcenc", "libion", "libjpeg", "liblzma", "libmath", "libmedia_codecserviceregistrant", "libmedia_headers", "libmpeg2dec", "libnativebase_headers", "libnativewindow_headers", "libpdx_headers", "libscudo_wrapper", "libsfplugin_ccodec_utils", "libspeexresampler", "libstagefright_amrnb_common", "libstagefright_amrnbdec", "libstagefright_amrnbenc", "libstagefright_amrwbdec", "libstagefright_amrwbenc", "libstagefright_bufferpool@2.0.1", "libstagefright_enc_common", "libstagefright_flacdec", "libstagefright_foundation", "libstagefright_foundation_headers", "libstagefright_headers", "libstagefright_m4vh263dec", "libstagefright_m4vh263enc", "libstagefright_mp3dec", "libui", "libui_headers", "libunwindstack", "libvorbisidec", "libvpx", "libyuv", "libyuv_static", "media_ndk_headers", "media_plugin_headers", "mediaswcodec", } // // Module separator // m["com.android.mediaprovider"] = []string{ "MediaProvider", "MediaProviderGoogle", "fmtlib_ndk", "libbase_ndk", "libfuse", "libfuse_jni", } // // Module separator // m["com.android.permission"] = []string{ "car-ui-lib", "iconloader", "kotlin-annotations", "kotlin-stdlib", "kotlin-stdlib-jdk7", "kotlin-stdlib-jdk8", "kotlinx-coroutines-android", "kotlinx-coroutines-android-nodeps", "kotlinx-coroutines-core", "kotlinx-coroutines-core-nodeps", "permissioncontroller-statsd", "GooglePermissionController", "PermissionController", "SettingsLibActionBarShadow", "SettingsLibAppPreference", "SettingsLibBarChartPreference", "SettingsLibLayoutPreference", "SettingsLibProgressBar", "SettingsLibSearchWidget", "SettingsLibSettingsTheme", "SettingsLibRestrictedLockUtils", "SettingsLibHelpUtils", } // // Module separator // m["com.android.runtime"] = []string{ "bionic_libc_platform_headers", "libarm-optimized-routines-math", "libc_aeabi", "libc_bionic", "libc_bionic_ndk", "libc_bootstrap", "libc_common", "libc_common_shared", "libc_common_static", "libc_dns", "libc_dynamic_dispatch", "libc_fortify", "libc_freebsd", "libc_freebsd_large_stack", "libc_gdtoa", "libc_init_dynamic", "libc_init_static", "libc_jemalloc_wrapper", "libc_netbsd", "libc_nomalloc", "libc_nopthread", "libc_openbsd", "libc_openbsd_large_stack", "libc_openbsd_ndk", "libc_pthread", "libc_static_dispatch", "libc_syscalls", "libc_tzcode", "libc_unwind_static", "libdebuggerd", "libdebuggerd_common_headers", "libdebuggerd_handler_core", "libdebuggerd_handler_fallback", "libdl_static", "libjemalloc5", "liblinker_main", "liblinker_malloc", "liblz4", "liblzma", "libprocinfo", "libpropertyinfoparser", "libscudo", "libstdc++", "libsystemproperties", "libtombstoned_client_static", "libunwindstack", "libz", "libziparchive", } // // Module separator // m["com.android.tethering"] = []string{ "android.hardware.tetheroffload.config-V1.0-java", "android.hardware.tetheroffload.control-V1.0-java", "android.hidl.base-V1.0-java", "libcgrouprc", "libcgrouprc_format", "libtetherutilsjni", "libvndksupport", "net-utils-framework-common", "netd_aidl_interface-V3-java", "netlink-client", "networkstack-aidl-interfaces-java", "tethering-aidl-interfaces-java", "TetheringApiCurrentLib", } // // Module separator // m["com.android.wifi"] = []string{ "PlatformProperties", "android.hardware.wifi-V1.0-java", "android.hardware.wifi-V1.0-java-constants", "android.hardware.wifi-V1.1-java", "android.hardware.wifi-V1.2-java", "android.hardware.wifi-V1.3-java", "android.hardware.wifi-V1.4-java", "android.hardware.wifi.hostapd-V1.0-java", "android.hardware.wifi.hostapd-V1.1-java", "android.hardware.wifi.hostapd-V1.2-java", "android.hardware.wifi.supplicant-V1.0-java", "android.hardware.wifi.supplicant-V1.1-java", "android.hardware.wifi.supplicant-V1.2-java", "android.hardware.wifi.supplicant-V1.3-java", "android.hidl.base-V1.0-java", "android.hidl.manager-V1.0-java", "android.hidl.manager-V1.1-java", "android.hidl.manager-V1.2-java", "bouncycastle-unbundled", "dnsresolver_aidl_interface-V2-java", "error_prone_annotations", "framework-wifi-pre-jarjar", "framework-wifi-util-lib", "ipmemorystore-aidl-interfaces-V3-java", "ipmemorystore-aidl-interfaces-java", "ksoap2", "libnanohttpd", "libwifi-jni", "net-utils-services-common", "netd_aidl_interface-V2-java", "netd_aidl_interface-unstable-java", "netd_event_listener_interface-java", "netlink-client", "networkstack-client", "services.net", "wifi-lite-protos", "wifi-nano-protos", "wifi-service-pre-jarjar", "wifi-service-resources", } // // Module separator // m["com.android.os.statsd"] = []string{ "libstatssocket", } // // Module separator // m[android.AvailableToAnyApex] = []string{ // TODO(b/156996905) Set apex_available/min_sdk_version for androidx/extras support libraries "androidx", "androidx-constraintlayout_constraintlayout", "androidx-constraintlayout_constraintlayout-nodeps", "androidx-constraintlayout_constraintlayout-solver", "androidx-constraintlayout_constraintlayout-solver-nodeps", "com.google.android.material_material", "com.google.android.material_material-nodeps", "libclang_rt", "libprofile-clang-extras", "libprofile-clang-extras_ndk", "libprofile-extras", "libprofile-extras_ndk", "libunwind", } return m } func init() { android.AddNeverAllowRules(createApexPermittedPackagesRules(qModulesPackages())...) android.AddNeverAllowRules(createApexPermittedPackagesRules(rModulesPackages())...) } func createApexPermittedPackagesRules(modules_packages map[string][]string) []android.Rule { rules := make([]android.Rule, 0, len(modules_packages)) for module_name, module_packages := range modules_packages { permittedPackagesRule := android.NeverAllow(). BootclasspathJar(). With("apex_available", module_name). WithMatcher("permitted_packages", android.NotInList(module_packages)). WithMatcher("min_sdk_version", android.LessThanSdkVersion("Tiramisu")). Because("jars that are part of the " + module_name + " module may only use these package prefixes: " + strings.Join(module_packages, ",") + " with min_sdk < T. Please consider the following alternatives:\n" + " 1. If the offending code is from a statically linked library, consider " + "removing that dependency and using an alternative already in the " + "bootclasspath, or perhaps a shared library." + " 2. Move the offending code into an allowed package.\n" + " 3. Jarjar the offending code. Please be mindful of the potential system " + "health implications of bundling that code, particularly if the offending jar " + "is part of the bootclasspath.") rules = append(rules, permittedPackagesRule) } return rules } // DO NOT EDIT! These are the package prefixes that are exempted from being AOT'ed by ART on Q/R/S. // Adding code to the bootclasspath in new packages will cause issues on module update. func qModulesPackages() map[string][]string { return map[string][]string{ "com.android.conscrypt": []string{ "android.net.ssl", "com.android.org.conscrypt", }, "com.android.media": []string{ "android.media", }, } } // DO NOT EDIT! These are the package prefixes that are exempted from being AOT'ed by ART on R/S. // Adding code to the bootclasspath in new packages will cause issues on module update. func rModulesPackages() map[string][]string { return map[string][]string{ "com.android.mediaprovider": []string{ "android.provider", }, "com.android.permission": []string{ "android.permission", "android.app.role", "com.android.permission", "com.android.role", }, "com.android.sdkext": []string{ "android.os.ext", }, "com.android.os.statsd": []string{ "android.app", "android.os", "android.util", "com.android.internal.statsd", "com.android.server.stats", }, "com.android.wifi": []string{ "com.android.server.wifi", "com.android.wifi.x", "android.hardware.wifi", "android.net.wifi", }, "com.android.tethering": []string{ "android.net", }, } } // For Bazel / bp2build type bazelApexBundleAttributes struct { Manifest bazel.LabelAttribute Android_manifest bazel.LabelAttribute File_contexts bazel.LabelAttribute Key bazel.LabelAttribute Certificate bazel.LabelAttribute Min_sdk_version *string Updatable bazel.BoolAttribute Installable bazel.BoolAttribute Binaries bazel.LabelListAttribute Prebuilts bazel.LabelListAttribute Native_shared_libs_32 bazel.LabelListAttribute Native_shared_libs_64 bazel.LabelListAttribute Compressible bazel.BoolAttribute } type convertedNativeSharedLibs struct { Native_shared_libs_32 bazel.LabelListAttribute Native_shared_libs_64 bazel.LabelListAttribute } // ConvertWithBp2build performs bp2build conversion of an apex func (a *apexBundle) ConvertWithBp2build(ctx android.TopDownMutatorContext) { // We do not convert apex_test modules at this time if ctx.ModuleType() != "apex" { return } var manifestLabelAttribute bazel.LabelAttribute if a.properties.Manifest != nil { manifestLabelAttribute.SetValue(android.BazelLabelForModuleSrcSingle(ctx, *a.properties.Manifest)) } var androidManifestLabelAttribute bazel.LabelAttribute if a.properties.AndroidManifest != nil { androidManifestLabelAttribute.SetValue(android.BazelLabelForModuleSrcSingle(ctx, *a.properties.AndroidManifest)) } var fileContextsLabelAttribute bazel.LabelAttribute if a.properties.File_contexts != nil { fileContextsLabelAttribute.SetValue(android.BazelLabelForModuleDepSingle(ctx, *a.properties.File_contexts)) } var minSdkVersion *string if a.properties.Min_sdk_version != nil { minSdkVersion = a.properties.Min_sdk_version } var keyLabelAttribute bazel.LabelAttribute if a.overridableProperties.Key != nil { keyLabelAttribute.SetValue(android.BazelLabelForModuleDepSingle(ctx, *a.overridableProperties.Key)) } var certificateLabelAttribute bazel.LabelAttribute if a.overridableProperties.Certificate != nil { certificateLabelAttribute.SetValue(android.BazelLabelForModuleDepSingle(ctx, *a.overridableProperties.Certificate)) } nativeSharedLibs := &convertedNativeSharedLibs{ Native_shared_libs_32: bazel.LabelListAttribute{}, Native_shared_libs_64: bazel.LabelListAttribute{}, } compileMultilib := "both" if a.CompileMultilib() != nil { compileMultilib = *a.CompileMultilib() } // properties.Native_shared_libs is treated as "both" convertBothLibs(ctx, compileMultilib, a.properties.Native_shared_libs, nativeSharedLibs) convertBothLibs(ctx, compileMultilib, a.properties.Multilib.Both.Native_shared_libs, nativeSharedLibs) convert32Libs(ctx, compileMultilib, a.properties.Multilib.Lib32.Native_shared_libs, nativeSharedLibs) convert64Libs(ctx, compileMultilib, a.properties.Multilib.Lib64.Native_shared_libs, nativeSharedLibs) convertFirstLibs(ctx, compileMultilib, a.properties.Multilib.First.Native_shared_libs, nativeSharedLibs) prebuilts := a.overridableProperties.Prebuilts prebuiltsLabelList := android.BazelLabelForModuleDeps(ctx, prebuilts) prebuiltsLabelListAttribute := bazel.MakeLabelListAttribute(prebuiltsLabelList) binaries := android.BazelLabelForModuleDeps(ctx, a.properties.ApexNativeDependencies.Binaries) binariesLabelListAttribute := bazel.MakeLabelListAttribute(binaries) var updatableAttribute bazel.BoolAttribute if a.properties.Updatable != nil { updatableAttribute.Value = a.properties.Updatable } var installableAttribute bazel.BoolAttribute if a.properties.Installable != nil { installableAttribute.Value = a.properties.Installable } var compressibleAttribute bazel.BoolAttribute if a.overridableProperties.Compressible != nil { compressibleAttribute.Value = a.overridableProperties.Compressible } attrs := &bazelApexBundleAttributes{ Manifest: manifestLabelAttribute, Android_manifest: androidManifestLabelAttribute, File_contexts: fileContextsLabelAttribute, Min_sdk_version: minSdkVersion, Key: keyLabelAttribute, Certificate: certificateLabelAttribute, Updatable: updatableAttribute, Installable: installableAttribute, Native_shared_libs_32: nativeSharedLibs.Native_shared_libs_32, Native_shared_libs_64: nativeSharedLibs.Native_shared_libs_64, Binaries: binariesLabelListAttribute, Prebuilts: prebuiltsLabelListAttribute, Compressible: compressibleAttribute, } props := bazel.BazelTargetModuleProperties{ Rule_class: "apex", Bzl_load_location: "//build/bazel/rules:apex.bzl", } ctx.CreateBazelTargetModule(props, android.CommonAttributes{Name: a.Name()}, attrs) } // The following conversions are based on this table where the rows are the compile_multilib // values and the columns are the properties.Multilib.*.Native_shared_libs. Each cell // represents how the libs should be compiled for a 64-bit/32-bit device: 32 means it // should be compiled as 32-bit, 64 means it should be compiled as 64-bit, none means it // should not be compiled. // multib/compile_multilib, 32, 64, both, first // 32, 32/32, none/none, 32/32, none/32 // 64, none/none, 64/none, 64/none, 64/none // both, 32/32, 64/none, 32&64/32, 64/32 // first, 32/32, 64/none, 64/32, 64/32 func convert32Libs(ctx android.TopDownMutatorContext, compileMultilb string, libs []string, nativeSharedLibs *convertedNativeSharedLibs) { libsLabelList := android.BazelLabelForModuleDeps(ctx, libs) switch compileMultilb { case "both", "32": makeNoConfig32SharedLibsAttributes(libsLabelList, nativeSharedLibs) case "first": make32SharedLibsAttributes(libsLabelList, nativeSharedLibs) case "64": // Incompatible, ignore default: invalidCompileMultilib(ctx, compileMultilb) } } func convert64Libs(ctx android.TopDownMutatorContext, compileMultilb string, libs []string, nativeSharedLibs *convertedNativeSharedLibs) { libsLabelList := android.BazelLabelForModuleDeps(ctx, libs) switch compileMultilb { case "both", "64", "first": make64SharedLibsAttributes(libsLabelList, nativeSharedLibs) case "32": // Incompatible, ignore default: invalidCompileMultilib(ctx, compileMultilb) } } func convertBothLibs(ctx android.TopDownMutatorContext, compileMultilb string, libs []string, nativeSharedLibs *convertedNativeSharedLibs) { libsLabelList := android.BazelLabelForModuleDeps(ctx, libs) switch compileMultilb { case "both": makeNoConfig32SharedLibsAttributes(libsLabelList, nativeSharedLibs) make64SharedLibsAttributes(libsLabelList, nativeSharedLibs) case "first": makeFirstSharedLibsAttributes(libsLabelList, nativeSharedLibs) case "32": makeNoConfig32SharedLibsAttributes(libsLabelList, nativeSharedLibs) case "64": make64SharedLibsAttributes(libsLabelList, nativeSharedLibs) default: invalidCompileMultilib(ctx, compileMultilb) } } func convertFirstLibs(ctx android.TopDownMutatorContext, compileMultilb string, libs []string, nativeSharedLibs *convertedNativeSharedLibs) { libsLabelList := android.BazelLabelForModuleDeps(ctx, libs) switch compileMultilb { case "both", "first": makeFirstSharedLibsAttributes(libsLabelList, nativeSharedLibs) case "32": make32SharedLibsAttributes(libsLabelList, nativeSharedLibs) case "64": make64SharedLibsAttributes(libsLabelList, nativeSharedLibs) default: invalidCompileMultilib(ctx, compileMultilb) } } func makeFirstSharedLibsAttributes(libsLabelList bazel.LabelList, nativeSharedLibs *convertedNativeSharedLibs) { make32SharedLibsAttributes(libsLabelList, nativeSharedLibs) make64SharedLibsAttributes(libsLabelList, nativeSharedLibs) } func makeNoConfig32SharedLibsAttributes(libsLabelList bazel.LabelList, nativeSharedLibs *convertedNativeSharedLibs) { list := bazel.LabelListAttribute{} list.SetSelectValue(bazel.NoConfigAxis, "", libsLabelList) nativeSharedLibs.Native_shared_libs_32.Append(list) } func make32SharedLibsAttributes(libsLabelList bazel.LabelList, nativeSharedLibs *convertedNativeSharedLibs) { makeSharedLibsAttributes("x86", libsLabelList, &nativeSharedLibs.Native_shared_libs_32) makeSharedLibsAttributes("arm", libsLabelList, &nativeSharedLibs.Native_shared_libs_32) } func make64SharedLibsAttributes(libsLabelList bazel.LabelList, nativeSharedLibs *convertedNativeSharedLibs) { makeSharedLibsAttributes("x86_64", libsLabelList, &nativeSharedLibs.Native_shared_libs_64) makeSharedLibsAttributes("arm64", libsLabelList, &nativeSharedLibs.Native_shared_libs_64) } func makeSharedLibsAttributes(config string, libsLabelList bazel.LabelList, labelListAttr *bazel.LabelListAttribute) { list := bazel.LabelListAttribute{} list.SetSelectValue(bazel.ArchConfigurationAxis, config, libsLabelList) labelListAttr.Append(list) } func invalidCompileMultilib(ctx android.TopDownMutatorContext, value string) { ctx.PropertyErrorf("compile_multilib", "Invalid value: %s", value) }